//------------------------------
// The fastMavlink library
// (c) OlliW, OlliW42, www.olliw.eu
//------------------------------

#pragma once
#ifndef FASTMAVLINK_COMMON_H
#define FASTMAVLINK_COMMON_H

#ifdef __cplusplus
extern "C" {
#endif

#ifndef FASTMAVLINK_BUILD_DATE
#define FASTMAVLINK_BUILD_DATE  "Mon Apr 29 2024"
#endif

#ifndef FASTMAVLINK_DIALECT_VERSION
#define FASTMAVLINK_DIALECT_VERSION  3  // this is the version specified in the dialect xml file
#endif


//------------------------------
//-- Message credentials
//-- The values of msg_entry_t for all messages in the dialect.
//-- msgid, extra crc, max length, flag, target sysid offset, target compid offset
//------------------------------

#include "common_msg_entries.h"

#ifndef FASTMAVLINK_MESSAGE_CRCS
#define FASTMAVLINK_MESSAGE_CRCS  FASTMAVLINK_MSG_ENTRIES
#endif


//------------------------------
//-- FastMavlink lib
//------------------------------

#include "../lib/fastmavlink.h"

#ifdef FASTMAVLINK_PYMAVLINK_ENABLED
#include "../lib/fastmavlink_pymavlink.h"
#endif


//------------------------------
//-- Enum definitons
//------------------------------

#ifndef FASTMAVLINK_TEST_EXCLUDE_ENUMS

#ifndef FASTMAVLINK_HAS_ENUM_FIRMWARE_VERSION_TYPE
#define FASTMAVLINK_HAS_ENUM_FIRMWARE_VERSION_TYPE
typedef enum FIRMWARE_VERSION_TYPE {
    FIRMWARE_VERSION_TYPE_DEV = 0,  // development release 
    FIRMWARE_VERSION_TYPE_ALPHA = 64,  // alpha release 
    FIRMWARE_VERSION_TYPE_BETA = 128,  // beta release 
    FIRMWARE_VERSION_TYPE_RC = 192,  // release candidate 
    FIRMWARE_VERSION_TYPE_OFFICIAL = 255,  // official stable release 
    FIRMWARE_VERSION_TYPE_ENUM_END = 256,  // end marker
} FIRMWARE_VERSION_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_HL_FAILURE_FLAG
#define FASTMAVLINK_HAS_ENUM_HL_FAILURE_FLAG
typedef enum HL_FAILURE_FLAG {
    HL_FAILURE_FLAG_GPS = 1,  // GPS failure. 
    HL_FAILURE_FLAG_DIFFERENTIAL_PRESSURE = 2,  // Differential pressure sensor failure. 
    HL_FAILURE_FLAG_ABSOLUTE_PRESSURE = 4,  // Absolute pressure sensor failure. 
    HL_FAILURE_FLAG_3D_ACCEL = 8,  // Accelerometer sensor failure. 
    HL_FAILURE_FLAG_3D_GYRO = 16,  // Gyroscope sensor failure. 
    HL_FAILURE_FLAG_3D_MAG = 32,  // Magnetometer sensor failure. 
    HL_FAILURE_FLAG_TERRAIN = 64,  // Terrain subsystem failure. 
    HL_FAILURE_FLAG_BATTERY = 128,  // Battery failure/critical low battery. 
    HL_FAILURE_FLAG_RC_RECEIVER = 256,  // RC receiver failure/no RC connection. 
    HL_FAILURE_FLAG_OFFBOARD_LINK = 512,  // Offboard link failure. 
    HL_FAILURE_FLAG_ENGINE = 1024,  // Engine failure. 
    HL_FAILURE_FLAG_GEOFENCE = 2048,  // Geofence violation. 
    HL_FAILURE_FLAG_ESTIMATOR = 4096,  // Estimator failure, for example measurement rejection or large variances. 
    HL_FAILURE_FLAG_MISSION = 8192,  // Mission failure. 
    HL_FAILURE_FLAG_ENUM_END = 8193,  // end marker
} HL_FAILURE_FLAG;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_GOTO
#define FASTMAVLINK_HAS_ENUM_MAV_GOTO
typedef enum MAV_GOTO {
    MAV_GOTO_DO_HOLD = 0,  // Hold at the current position. 
    MAV_GOTO_DO_CONTINUE = 1,  // Continue with the next item in mission execution. 
    MAV_GOTO_HOLD_AT_CURRENT_POSITION = 2,  // Hold at the current position of the system 
    MAV_GOTO_HOLD_AT_SPECIFIED_POSITION = 3,  // Hold at the position specified in the parameters of the DO_HOLD action 
    MAV_GOTO_ENUM_END = 4,  // end marker
} MAV_GOTO;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_MODE
#define FASTMAVLINK_HAS_ENUM_MAV_MODE
typedef enum MAV_MODE {
    MAV_MODE_PREFLIGHT = 0,  // System is not ready to fly, booting, calibrating, etc. No flag is set. 
    MAV_MODE_MANUAL_DISARMED = 64,  // System is allowed to be active, under manual (RC) control, no stabilization 
    MAV_MODE_TEST_DISARMED = 66,  // UNDEFINED mode. This solely depends on the autopilot - use with caution, intended for developers only. 
    MAV_MODE_STABILIZE_DISARMED = 80,  // System is allowed to be active, under assisted RC control. 
    MAV_MODE_GUIDED_DISARMED = 88,  // System is allowed to be active, under autonomous control, manual setpoint 
    MAV_MODE_AUTO_DISARMED = 92,  // System is allowed to be active, under autonomous control and navigation (the trajectory is decided onboard and not pre-programmed by waypoints) 
    MAV_MODE_MANUAL_ARMED = 192,  // System is allowed to be active, under manual (RC) control, no stabilization 
    MAV_MODE_TEST_ARMED = 194,  // UNDEFINED mode. This solely depends on the autopilot - use with caution, intended for developers only. 
    MAV_MODE_STABILIZE_ARMED = 208,  // System is allowed to be active, under assisted RC control. 
    MAV_MODE_GUIDED_ARMED = 216,  // System is allowed to be active, under autonomous control, manual setpoint 
    MAV_MODE_AUTO_ARMED = 220,  // System is allowed to be active, under autonomous control and navigation (the trajectory is decided onboard and not pre-programmed by waypoints) 
    MAV_MODE_ENUM_END = 221,  // end marker
} MAV_MODE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_SYS_STATUS_SENSOR
#define FASTMAVLINK_HAS_ENUM_MAV_SYS_STATUS_SENSOR
typedef enum MAV_SYS_STATUS_SENSOR {
    MAV_SYS_STATUS_SENSOR_3D_GYRO = 1,  // 0x01 3D gyro 
    MAV_SYS_STATUS_SENSOR_3D_ACCEL = 2,  // 0x02 3D accelerometer 
    MAV_SYS_STATUS_SENSOR_3D_MAG = 4,  // 0x04 3D magnetometer 
    MAV_SYS_STATUS_SENSOR_ABSOLUTE_PRESSURE = 8,  // 0x08 absolute pressure 
    MAV_SYS_STATUS_SENSOR_DIFFERENTIAL_PRESSURE = 16,  // 0x10 differential pressure 
    MAV_SYS_STATUS_SENSOR_GPS = 32,  // 0x20 GPS 
    MAV_SYS_STATUS_SENSOR_OPTICAL_FLOW = 64,  // 0x40 optical flow 
    MAV_SYS_STATUS_SENSOR_VISION_POSITION = 128,  // 0x80 computer vision position 
    MAV_SYS_STATUS_SENSOR_LASER_POSITION = 256,  // 0x100 laser based position 
    MAV_SYS_STATUS_SENSOR_EXTERNAL_GROUND_TRUTH = 512,  // 0x200 external ground truth (Vicon or Leica) 
    MAV_SYS_STATUS_SENSOR_ANGULAR_RATE_CONTROL = 1024,  // 0x400 3D angular rate control 
    MAV_SYS_STATUS_SENSOR_ATTITUDE_STABILIZATION = 2048,  // 0x800 attitude stabilization 
    MAV_SYS_STATUS_SENSOR_YAW_POSITION = 4096,  // 0x1000 yaw position 
    MAV_SYS_STATUS_SENSOR_Z_ALTITUDE_CONTROL = 8192,  // 0x2000 z/altitude control 
    MAV_SYS_STATUS_SENSOR_XY_POSITION_CONTROL = 16384,  // 0x4000 x/y position control 
    MAV_SYS_STATUS_SENSOR_MOTOR_OUTPUTS = 32768,  // 0x8000 motor outputs / control 
    MAV_SYS_STATUS_SENSOR_RC_RECEIVER = 65536,  // 0x10000 RC receiver 
    MAV_SYS_STATUS_SENSOR_3D_GYRO2 = 131072,  // 0x20000 2nd 3D gyro 
    MAV_SYS_STATUS_SENSOR_3D_ACCEL2 = 262144,  // 0x40000 2nd 3D accelerometer 
    MAV_SYS_STATUS_SENSOR_3D_MAG2 = 524288,  // 0x80000 2nd 3D magnetometer 
    MAV_SYS_STATUS_GEOFENCE = 1048576,  // 0x100000 geofence 
    MAV_SYS_STATUS_AHRS = 2097152,  // 0x200000 AHRS subsystem health 
    MAV_SYS_STATUS_TERRAIN = 4194304,  // 0x400000 Terrain subsystem health 
    MAV_SYS_STATUS_REVERSE_MOTOR = 8388608,  // 0x800000 Motors are reversed 
    MAV_SYS_STATUS_LOGGING = 16777216,  // 0x1000000 Logging 
    MAV_SYS_STATUS_SENSOR_BATTERY = 33554432,  // 0x2000000 Battery 
    MAV_SYS_STATUS_SENSOR_PROXIMITY = 67108864,  // 0x4000000 Proximity 
    MAV_SYS_STATUS_SENSOR_SATCOM = 134217728,  // 0x8000000 Satellite Communication  
    MAV_SYS_STATUS_PREARM_CHECK = 268435456,  // 0x10000000 pre-arm check status. Always healthy when armed 
    MAV_SYS_STATUS_OBSTACLE_AVOIDANCE = 536870912,  // 0x20000000 Avoidance/collision prevention 
    MAV_SYS_STATUS_SENSOR_PROPULSION = 1073741824,  // 0x40000000 propulsion (actuator, esc, motor or propellor) 
    MAV_SYS_STATUS_EXTENSION_USED = 2147483648,  // 0x80000000 Extended bit-field are used for further sensor status bits (needs to be set in onboard_control_sensors_present only) 
    MAV_SYS_STATUS_SENSOR_ENUM_END = 2147483649,  // end marker
} MAV_SYS_STATUS_SENSOR;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_SYS_STATUS_SENSOR_EXTENDED
#define FASTMAVLINK_HAS_ENUM_MAV_SYS_STATUS_SENSOR_EXTENDED
typedef enum MAV_SYS_STATUS_SENSOR_EXTENDED {
    MAV_SYS_STATUS_RECOVERY_SYSTEM = 1,  // 0x01 Recovery system (parachute, balloon, retracts etc) 
    MAV_SYS_STATUS_SENSOR_EXTENDED_ENUM_END = 2,  // end marker
} MAV_SYS_STATUS_SENSOR_EXTENDED;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_FRAME
#define FASTMAVLINK_HAS_ENUM_MAV_FRAME
typedef enum MAV_FRAME {
    MAV_FRAME_GLOBAL = 0,  // Global (WGS84) coordinate frame + altitude relative to mean sea level (MSL). 
    MAV_FRAME_LOCAL_NED = 1,  // NED local tangent frame (x: North, y: East, z: Down) with origin fixed relative to earth. 
    MAV_FRAME_MISSION = 2,  // NOT a coordinate frame, indicates a mission command. 
    MAV_FRAME_GLOBAL_RELATIVE_ALT = 3,  //           Global (WGS84) coordinate frame + altitude relative to the home position.         
    MAV_FRAME_LOCAL_ENU = 4,  // ENU local tangent frame (x: East, y: North, z: Up) with origin fixed relative to earth. 
    MAV_FRAME_GLOBAL_INT = 5,  // Global (WGS84) coordinate frame (scaled) + altitude relative to mean sea level (MSL). 
    MAV_FRAME_GLOBAL_RELATIVE_ALT_INT = 6,  // Global (WGS84) coordinate frame (scaled) + altitude relative to the home position.  
    MAV_FRAME_LOCAL_OFFSET_NED = 7,  // NED local tangent frame (x: North, y: East, z: Down) with origin that travels with the vehicle. 
    MAV_FRAME_BODY_NED = 8,  // Same as MAV_FRAME_LOCAL_NED when used to represent position values. Same as MAV_FRAME_BODY_FRD when used with velocity/acceleration values. 
    MAV_FRAME_BODY_OFFSET_NED = 9,  // This is the same as MAV_FRAME_BODY_FRD. 
    MAV_FRAME_GLOBAL_TERRAIN_ALT = 10,  // Global (WGS84) coordinate frame with AGL altitude (altitude at ground level). 
    MAV_FRAME_GLOBAL_TERRAIN_ALT_INT = 11,  // Global (WGS84) coordinate frame (scaled) with AGL altitude (altitude at ground level). 
    MAV_FRAME_BODY_FRD = 12,  // FRD local frame aligned to the vehicle's attitude (x: Forward, y: Right, z: Down) with an origin that travels with vehicle. 
    MAV_FRAME_RESERVED_13 = 13,  // MAV_FRAME_BODY_FLU - Body fixed frame of reference, Z-up (x: Forward, y: Left, z: Up). 
    MAV_FRAME_RESERVED_14 = 14,  // MAV_FRAME_MOCAP_NED - Odometry local coordinate frame of data given by a motion capture system, Z-down (x: North, y: East, z: Down). 
    MAV_FRAME_RESERVED_15 = 15,  // MAV_FRAME_MOCAP_ENU - Odometry local coordinate frame of data given by a motion capture system, Z-up (x: East, y: North, z: Up). 
    MAV_FRAME_RESERVED_16 = 16,  // MAV_FRAME_VISION_NED - Odometry local coordinate frame of data given by a vision estimation system, Z-down (x: North, y: East, z: Down). 
    MAV_FRAME_RESERVED_17 = 17,  // MAV_FRAME_VISION_ENU - Odometry local coordinate frame of data given by a vision estimation system, Z-up (x: East, y: North, z: Up). 
    MAV_FRAME_RESERVED_18 = 18,  // MAV_FRAME_ESTIM_NED - Odometry local coordinate frame of data given by an estimator running onboard the vehicle, Z-down (x: North, y: East, z: Down). 
    MAV_FRAME_RESERVED_19 = 19,  // MAV_FRAME_ESTIM_ENU - Odometry local coordinate frame of data given by an estimator running onboard the vehicle, Z-up (x: East, y: North, z: Up). 
    MAV_FRAME_LOCAL_FRD = 20,  // FRD local tangent frame (x: Forward, y: Right, z: Down) with origin fixed relative to earth. The forward axis is aligned to the front of the vehicle in the horizontal plane. 
    MAV_FRAME_LOCAL_FLU = 21,  // FLU local tangent frame (x: Forward, y: Left, z: Up) with origin fixed relative to earth. The forward axis is aligned to the front of the vehicle in the horizontal plane. 
    MAV_FRAME_ENUM_END = 22,  // end marker
} MAV_FRAME;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAVLINK_DATA_STREAM_TYPE
#define FASTMAVLINK_HAS_ENUM_MAVLINK_DATA_STREAM_TYPE
typedef enum MAVLINK_DATA_STREAM_TYPE {
    MAVLINK_DATA_STREAM_IMG_JPEG = 0,  //  
    MAVLINK_DATA_STREAM_IMG_BMP = 1,  //  
    MAVLINK_DATA_STREAM_IMG_RAW8U = 2,  //  
    MAVLINK_DATA_STREAM_IMG_RAW32U = 3,  //  
    MAVLINK_DATA_STREAM_IMG_PGM = 4,  //  
    MAVLINK_DATA_STREAM_IMG_PNG = 5,  //  
    MAVLINK_DATA_STREAM_TYPE_ENUM_END = 6,  // end marker
} MAVLINK_DATA_STREAM_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_FENCE_ACTION
#define FASTMAVLINK_HAS_ENUM_FENCE_ACTION
typedef enum FENCE_ACTION {
    FENCE_ACTION_NONE = 0,  // Disable fenced mode. If used in a plan this would mean the next fence is disabled. 
    FENCE_ACTION_GUIDED = 1,  // Fly to geofence MAV_CMD_NAV_FENCE_RETURN_POINT in GUIDED mode. Note: This action is only supported by ArduPlane, and may not be supported in all versions. 
    FENCE_ACTION_REPORT = 2,  // Report fence breach, but don't take action 
    FENCE_ACTION_GUIDED_THR_PASS = 3,  // Fly to geofence MAV_CMD_NAV_FENCE_RETURN_POINT with manual throttle control in GUIDED mode. Note: This action is only supported by ArduPlane, and may not be supported in all versions. 
    FENCE_ACTION_RTL = 4,  // Return/RTL mode. 
    FENCE_ACTION_HOLD = 5,  // Hold at current location. 
    FENCE_ACTION_TERMINATE = 6,  // Termination failsafe. Motors are shut down (some flight stacks may trigger other failsafe actions). 
    FENCE_ACTION_LAND = 7,  // Land at current location. 
    FENCE_ACTION_ENUM_END = 8,  // end marker
} FENCE_ACTION;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_FENCE_BREACH
#define FASTMAVLINK_HAS_ENUM_FENCE_BREACH
typedef enum FENCE_BREACH {
    FENCE_BREACH_NONE = 0,  // No last fence breach 
    FENCE_BREACH_MINALT = 1,  // Breached minimum altitude 
    FENCE_BREACH_MAXALT = 2,  // Breached maximum altitude 
    FENCE_BREACH_BOUNDARY = 3,  // Breached fence boundary 
    FENCE_BREACH_ENUM_END = 4,  // end marker
} FENCE_BREACH;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_FENCE_MITIGATE
#define FASTMAVLINK_HAS_ENUM_FENCE_MITIGATE
typedef enum FENCE_MITIGATE {
    FENCE_MITIGATE_UNKNOWN = 0,  // Unknown 
    FENCE_MITIGATE_NONE = 1,  // No actions being taken 
    FENCE_MITIGATE_VEL_LIMIT = 2,  // Velocity limiting active to prevent breach 
    FENCE_MITIGATE_ENUM_END = 3,  // end marker
} FENCE_MITIGATE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_FENCE_TYPE
#define FASTMAVLINK_HAS_ENUM_FENCE_TYPE
typedef enum FENCE_TYPE {
    FENCE_TYPE_ALL = 0,  // All fence types 
    FENCE_TYPE_ALT_MAX = 1,  // Maximum altitude fence 
    FENCE_TYPE_CIRCLE = 2,  // Circle fence 
    FENCE_TYPE_POLYGON = 4,  // Polygon fence 
    FENCE_TYPE_ALT_MIN = 8,  // Minimum altitude fence 
    FENCE_TYPE_ENUM_END = 9,  // end marker
} FENCE_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_MOUNT_MODE
#define FASTMAVLINK_HAS_ENUM_MAV_MOUNT_MODE
typedef enum MAV_MOUNT_MODE {
    MAV_MOUNT_MODE_RETRACT = 0,  // Load and keep safe position (Roll,Pitch,Yaw) from permanent memory and stop stabilization 
    MAV_MOUNT_MODE_NEUTRAL = 1,  // Load and keep neutral position (Roll,Pitch,Yaw) from permanent memory. 
    MAV_MOUNT_MODE_MAVLINK_TARGETING = 2,  // Load neutral position and start MAVLink Roll,Pitch,Yaw control with stabilization 
    MAV_MOUNT_MODE_RC_TARGETING = 3,  // Load neutral position and start RC Roll,Pitch,Yaw control with stabilization 
    MAV_MOUNT_MODE_GPS_POINT = 4,  // Load neutral position and start to point to Lat,Lon,Alt 
    MAV_MOUNT_MODE_SYSID_TARGET = 5,  // Gimbal tracks system with specified system ID 
    MAV_MOUNT_MODE_HOME_LOCATION = 6,  // Gimbal tracks home position 
    MAV_MOUNT_MODE_ENUM_END = 7,  // end marker
} MAV_MOUNT_MODE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GIMBAL_DEVICE_CAP_FLAGS
#define FASTMAVLINK_HAS_ENUM_GIMBAL_DEVICE_CAP_FLAGS
typedef enum GIMBAL_DEVICE_CAP_FLAGS {
    GIMBAL_DEVICE_CAP_FLAGS_HAS_RETRACT = 1,  // Gimbal device supports a retracted position. 
    GIMBAL_DEVICE_CAP_FLAGS_HAS_NEUTRAL = 2,  // Gimbal device supports a horizontal, forward looking position, stabilized. 
    GIMBAL_DEVICE_CAP_FLAGS_HAS_ROLL_AXIS = 4,  // Gimbal device supports rotating around roll axis. 
    GIMBAL_DEVICE_CAP_FLAGS_HAS_ROLL_FOLLOW = 8,  // Gimbal device supports to follow a roll angle relative to the vehicle. 
    GIMBAL_DEVICE_CAP_FLAGS_HAS_ROLL_LOCK = 16,  // Gimbal device supports locking to a roll angle (generally that's the default with roll stabilized). 
    GIMBAL_DEVICE_CAP_FLAGS_HAS_PITCH_AXIS = 32,  // Gimbal device supports rotating around pitch axis. 
    GIMBAL_DEVICE_CAP_FLAGS_HAS_PITCH_FOLLOW = 64,  // Gimbal device supports to follow a pitch angle relative to the vehicle. 
    GIMBAL_DEVICE_CAP_FLAGS_HAS_PITCH_LOCK = 128,  // Gimbal device supports locking to a pitch angle (generally that's the default with pitch stabilized). 
    GIMBAL_DEVICE_CAP_FLAGS_HAS_YAW_AXIS = 256,  // Gimbal device supports rotating around yaw axis. 
    GIMBAL_DEVICE_CAP_FLAGS_HAS_YAW_FOLLOW = 512,  // Gimbal device supports to follow a yaw angle relative to the vehicle (generally that's the default). 
    GIMBAL_DEVICE_CAP_FLAGS_HAS_YAW_LOCK = 1024,  // Gimbal device supports locking to an absolute heading, i.e., yaw angle relative to North (earth frame, often this is an option available). 
    GIMBAL_DEVICE_CAP_FLAGS_SUPPORTS_INFINITE_YAW = 2048,  // Gimbal device supports yawing/panning infinitely (e.g. using slip disk). 
    GIMBAL_DEVICE_CAP_FLAGS_SUPPORTS_YAW_IN_EARTH_FRAME = 4096,  // Gimbal device supports yaw angles and angular velocities relative to North (earth frame). This usually requires support by an autopilot via AUTOPILOT_STATE_FOR_GIMBAL_DEVICE. Support can go on and off during runtime, which is reported by the flag GIMBAL_DEVICE_FLAGS_CAN_ACCEPT_YAW_IN_EARTH_FRAME. 
    GIMBAL_DEVICE_CAP_FLAGS_HAS_RC_INPUTS = 8192,  // Gimbal device supports radio control inputs as an alternative input for controlling the gimbal orientation. 
    GIMBAL_DEVICE_CAP_FLAGS_ENUM_END = 8193,  // end marker
} GIMBAL_DEVICE_CAP_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GIMBAL_MANAGER_CAP_FLAGS
#define FASTMAVLINK_HAS_ENUM_GIMBAL_MANAGER_CAP_FLAGS
typedef enum GIMBAL_MANAGER_CAP_FLAGS {
    GIMBAL_MANAGER_CAP_FLAGS_HAS_RETRACT = 1,  // Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_RETRACT. 
    GIMBAL_MANAGER_CAP_FLAGS_HAS_NEUTRAL = 2,  // Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_NEUTRAL. 
    GIMBAL_MANAGER_CAP_FLAGS_HAS_ROLL_AXIS = 4,  // Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_ROLL_AXIS. 
    GIMBAL_MANAGER_CAP_FLAGS_HAS_ROLL_FOLLOW = 8,  // Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_ROLL_FOLLOW. 
    GIMBAL_MANAGER_CAP_FLAGS_HAS_ROLL_LOCK = 16,  // Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_ROLL_LOCK. 
    GIMBAL_MANAGER_CAP_FLAGS_HAS_PITCH_AXIS = 32,  // Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_PITCH_AXIS. 
    GIMBAL_MANAGER_CAP_FLAGS_HAS_PITCH_FOLLOW = 64,  // Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_PITCH_FOLLOW. 
    GIMBAL_MANAGER_CAP_FLAGS_HAS_PITCH_LOCK = 128,  // Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_PITCH_LOCK. 
    GIMBAL_MANAGER_CAP_FLAGS_HAS_YAW_AXIS = 256,  // Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_YAW_AXIS. 
    GIMBAL_MANAGER_CAP_FLAGS_HAS_YAW_FOLLOW = 512,  // Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_YAW_FOLLOW. 
    GIMBAL_MANAGER_CAP_FLAGS_HAS_YAW_LOCK = 1024,  // Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_YAW_LOCK. 
    GIMBAL_MANAGER_CAP_FLAGS_SUPPORTS_INFINITE_YAW = 2048,  // Based on GIMBAL_DEVICE_CAP_FLAGS_SUPPORTS_INFINITE_YAW. 
    GIMBAL_MANAGER_CAP_FLAGS_SUPPORTS_YAW_IN_EARTH_FRAME = 4096,  // Based on GIMBAL_DEVICE_CAP_FLAGS_SUPPORTS_YAW_IN_EARTH_FRAME. 
    GIMBAL_MANAGER_CAP_FLAGS_HAS_RC_INPUTS = 8192,  // Based on GIMBAL_DEVICE_CAP_FLAGS_HAS_RC_INPUTS. 
    GIMBAL_MANAGER_CAP_FLAGS_CAN_POINT_LOCATION_LOCAL = 65536,  // Gimbal manager supports to point to a local position. 
    GIMBAL_MANAGER_CAP_FLAGS_CAN_POINT_LOCATION_GLOBAL = 131072,  // Gimbal manager supports to point to a global latitude, longitude, altitude position. 
    GIMBAL_MANAGER_CAP_FLAGS_ENUM_END = 131073,  // end marker
} GIMBAL_MANAGER_CAP_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GIMBAL_DEVICE_FLAGS
#define FASTMAVLINK_HAS_ENUM_GIMBAL_DEVICE_FLAGS
typedef enum GIMBAL_DEVICE_FLAGS {
    GIMBAL_DEVICE_FLAGS_RETRACT = 1,  // Set to retracted safe position (no stabilization), takes precedence over all other flags. 
    GIMBAL_DEVICE_FLAGS_NEUTRAL = 2,  // Set to neutral/default position, taking precedence over all other flags except RETRACT. Neutral is commonly forward-facing and horizontal (roll=pitch=yaw=0) but may be any orientation. 
    GIMBAL_DEVICE_FLAGS_ROLL_LOCK = 4,  // Lock roll angle to absolute angle relative to horizon (not relative to vehicle). This is generally the default with a stabilizing gimbal. 
    GIMBAL_DEVICE_FLAGS_PITCH_LOCK = 8,  // Lock pitch angle to absolute angle relative to horizon (not relative to vehicle). This is generally the default with a stabilizing gimbal. 
    GIMBAL_DEVICE_FLAGS_YAW_LOCK = 16,  // Lock yaw angle to absolute angle relative to North (not relative to vehicle). If this flag is set, the yaw angle and z component of angular velocity are relative to North (earth frame, x-axis pointing North), else they are relative to the vehicle heading (vehicle frame, earth frame rotated so that the x-axis is pointing forward). 
    GIMBAL_DEVICE_FLAGS_YAW_IN_VEHICLE_FRAME = 32,  // Yaw angle and z component of angular velocity are relative to the vehicle heading (vehicle frame, earth frame rotated such that the x-axis is pointing forward). 
    GIMBAL_DEVICE_FLAGS_YAW_IN_EARTH_FRAME = 64,  // Yaw angle and z component of angular velocity are relative to North (earth frame, x-axis is pointing North). 
    GIMBAL_DEVICE_FLAGS_ACCEPTS_YAW_IN_EARTH_FRAME = 128,  // Gimbal device can accept yaw angle inputs relative to North (earth frame). This flag is only for reporting (attempts to set this flag are ignored). 
    GIMBAL_DEVICE_FLAGS_RC_EXCLUSIVE = 256,  // The gimbal orientation is set exclusively by the RC signals feed to the gimbal's radio control inputs. MAVLink messages for setting the gimbal orientation (GIMBAL_DEVICE_SET_ATTITUDE) are ignored. 
    GIMBAL_DEVICE_FLAGS_RC_MIXED = 512,  // The gimbal orientation is determined by combining/mixing the RC signals feed to the gimbal's radio control inputs and the MAVLink messages for setting the gimbal orientation (GIMBAL_DEVICE_SET_ATTITUDE). How these two controls are combined or mixed is not defined by the protocol but is up to the implementation. 
    GIMBAL_DEVICE_FLAGS_ENUM_END = 513,  // end marker
} GIMBAL_DEVICE_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GIMBAL_MANAGER_FLAGS
#define FASTMAVLINK_HAS_ENUM_GIMBAL_MANAGER_FLAGS
typedef enum GIMBAL_MANAGER_FLAGS {
    GIMBAL_MANAGER_FLAGS_RETRACT = 1,  // Based on GIMBAL_DEVICE_FLAGS_RETRACT. 
    GIMBAL_MANAGER_FLAGS_NEUTRAL = 2,  // Based on GIMBAL_DEVICE_FLAGS_NEUTRAL. 
    GIMBAL_MANAGER_FLAGS_ROLL_LOCK = 4,  // Based on GIMBAL_DEVICE_FLAGS_ROLL_LOCK. 
    GIMBAL_MANAGER_FLAGS_PITCH_LOCK = 8,  // Based on GIMBAL_DEVICE_FLAGS_PITCH_LOCK. 
    GIMBAL_MANAGER_FLAGS_YAW_LOCK = 16,  // Based on GIMBAL_DEVICE_FLAGS_YAW_LOCK. 
    GIMBAL_MANAGER_FLAGS_YAW_IN_VEHICLE_FRAME = 32,  // Based on GIMBAL_DEVICE_FLAGS_YAW_IN_VEHICLE_FRAME. 
    GIMBAL_MANAGER_FLAGS_YAW_IN_EARTH_FRAME = 64,  // Based on GIMBAL_DEVICE_FLAGS_YAW_IN_EARTH_FRAME. 
    GIMBAL_MANAGER_FLAGS_ACCEPTS_YAW_IN_EARTH_FRAME = 128,  // Based on GIMBAL_DEVICE_FLAGS_ACCEPTS_YAW_IN_EARTH_FRAME. 
    GIMBAL_MANAGER_FLAGS_RC_EXCLUSIVE = 256,  // Based on GIMBAL_DEVICE_FLAGS_RC_EXCLUSIVE. 
    GIMBAL_MANAGER_FLAGS_RC_MIXED = 512,  // Based on GIMBAL_DEVICE_FLAGS_RC_MIXED. 
    GIMBAL_MANAGER_FLAGS_ENUM_END = 513,  // end marker
} GIMBAL_MANAGER_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GIMBAL_DEVICE_ERROR_FLAGS
#define FASTMAVLINK_HAS_ENUM_GIMBAL_DEVICE_ERROR_FLAGS
typedef enum GIMBAL_DEVICE_ERROR_FLAGS {
    GIMBAL_DEVICE_ERROR_FLAGS_AT_ROLL_LIMIT = 1,  // Gimbal device is limited by hardware roll limit. 
    GIMBAL_DEVICE_ERROR_FLAGS_AT_PITCH_LIMIT = 2,  // Gimbal device is limited by hardware pitch limit. 
    GIMBAL_DEVICE_ERROR_FLAGS_AT_YAW_LIMIT = 4,  // Gimbal device is limited by hardware yaw limit. 
    GIMBAL_DEVICE_ERROR_FLAGS_ENCODER_ERROR = 8,  // There is an error with the gimbal encoders. 
    GIMBAL_DEVICE_ERROR_FLAGS_POWER_ERROR = 16,  // There is an error with the gimbal power source. 
    GIMBAL_DEVICE_ERROR_FLAGS_MOTOR_ERROR = 32,  // There is an error with the gimbal motors. 
    GIMBAL_DEVICE_ERROR_FLAGS_SOFTWARE_ERROR = 64,  // There is an error with the gimbal's software. 
    GIMBAL_DEVICE_ERROR_FLAGS_COMMS_ERROR = 128,  // There is an error with the gimbal's communication. 
    GIMBAL_DEVICE_ERROR_FLAGS_CALIBRATION_RUNNING = 256,  // Gimbal device is currently calibrating. 
    GIMBAL_DEVICE_ERROR_FLAGS_NO_MANAGER = 512,  // Gimbal device is not assigned to a gimbal manager. 
    GIMBAL_DEVICE_ERROR_FLAGS_ENUM_END = 513,  // end marker
} GIMBAL_DEVICE_ERROR_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GRIPPER_ACTIONS
#define FASTMAVLINK_HAS_ENUM_GRIPPER_ACTIONS
typedef enum GRIPPER_ACTIONS {
    GRIPPER_ACTION_RELEASE = 0,  // Gripper release cargo. 
    GRIPPER_ACTION_GRAB = 1,  // Gripper grab onto cargo. 
    GRIPPER_ACTIONS_ENUM_END = 2,  // end marker
} GRIPPER_ACTIONS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_WINCH_ACTIONS
#define FASTMAVLINK_HAS_ENUM_WINCH_ACTIONS
typedef enum WINCH_ACTIONS {
    WINCH_RELAXED = 0,  // Allow motor to freewheel. 
    WINCH_RELATIVE_LENGTH_CONTROL = 1,  // Wind or unwind specified length of line, optionally using specified rate. 
    WINCH_RATE_CONTROL = 2,  // Wind or unwind line at specified rate. 
    WINCH_LOCK = 3,  // Perform the locking sequence to relieve motor while in the fully retracted position. Only action and instance command parameters are used, others are ignored. 
    WINCH_DELIVER = 4,  // Sequence of drop, slow down, touch down, reel up, lock. Only action and instance command parameters are used, others are ignored. 
    WINCH_HOLD = 5,  // Engage motor and hold current position. Only action and instance command parameters are used, others are ignored. 
    WINCH_RETRACT = 6,  // Return the reel to the fully retracted position. Only action and instance command parameters are used, others are ignored. 
    WINCH_LOAD_LINE = 7,  // Load the reel with line. The winch will calculate the total loaded length and stop when the tension exceeds a threshold. Only action and instance command parameters are used, others are ignored. 
    WINCH_ABANDON_LINE = 8,  // Spool out the entire length of the line. Only action and instance command parameters are used, others are ignored. 
    WINCH_LOAD_PAYLOAD = 9,  // Spools out just enough to present the hook to the user to load the payload. Only action and instance command parameters are used, others are ignored 
    WINCH_ACTIONS_ENUM_END = 10,  // end marker
} WINCH_ACTIONS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_UAVCAN_NODE_HEALTH
#define FASTMAVLINK_HAS_ENUM_UAVCAN_NODE_HEALTH
typedef enum UAVCAN_NODE_HEALTH {
    UAVCAN_NODE_HEALTH_OK = 0,  // The node is functioning properly. 
    UAVCAN_NODE_HEALTH_WARNING = 1,  // A critical parameter went out of range or the node has encountered a minor failure. 
    UAVCAN_NODE_HEALTH_ERROR = 2,  // The node has encountered a major failure. 
    UAVCAN_NODE_HEALTH_CRITICAL = 3,  // The node has suffered a fatal malfunction. 
    UAVCAN_NODE_HEALTH_ENUM_END = 4,  // end marker
} UAVCAN_NODE_HEALTH;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_UAVCAN_NODE_MODE
#define FASTMAVLINK_HAS_ENUM_UAVCAN_NODE_MODE
typedef enum UAVCAN_NODE_MODE {
    UAVCAN_NODE_MODE_OPERATIONAL = 0,  // The node is performing its primary functions. 
    UAVCAN_NODE_MODE_INITIALIZATION = 1,  // The node is initializing; this mode is entered immediately after startup. 
    UAVCAN_NODE_MODE_MAINTENANCE = 2,  // The node is under maintenance. 
    UAVCAN_NODE_MODE_SOFTWARE_UPDATE = 3,  // The node is in the process of updating its software. 
    UAVCAN_NODE_MODE_OFFLINE = 7,  // The node is no longer available online. 
    UAVCAN_NODE_MODE_ENUM_END = 8,  // end marker
} UAVCAN_NODE_MODE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_ESC_CONNECTION_TYPE
#define FASTMAVLINK_HAS_ENUM_ESC_CONNECTION_TYPE
typedef enum ESC_CONNECTION_TYPE {
    ESC_CONNECTION_TYPE_PPM = 0,  // Traditional PPM ESC. 
    ESC_CONNECTION_TYPE_SERIAL = 1,  // Serial Bus connected ESC. 
    ESC_CONNECTION_TYPE_ONESHOT = 2,  // One Shot PPM ESC. 
    ESC_CONNECTION_TYPE_I2C = 3,  // I2C ESC. 
    ESC_CONNECTION_TYPE_CAN = 4,  // CAN-Bus ESC. 
    ESC_CONNECTION_TYPE_DSHOT = 5,  // DShot ESC. 
    ESC_CONNECTION_TYPE_ENUM_END = 6,  // end marker
} ESC_CONNECTION_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_ESC_FAILURE_FLAGS
#define FASTMAVLINK_HAS_ENUM_ESC_FAILURE_FLAGS
typedef enum ESC_FAILURE_FLAGS {
    ESC_FAILURE_NONE = 0,  // No ESC failure. 
    ESC_FAILURE_OVER_CURRENT = 1,  // Over current failure. 
    ESC_FAILURE_OVER_VOLTAGE = 2,  // Over voltage failure. 
    ESC_FAILURE_OVER_TEMPERATURE = 4,  // Over temperature failure. 
    ESC_FAILURE_OVER_RPM = 8,  // Over RPM failure. 
    ESC_FAILURE_INCONSISTENT_CMD = 16,  // Inconsistent command failure i.e. out of bounds. 
    ESC_FAILURE_MOTOR_STUCK = 32,  // Motor stuck failure. 
    ESC_FAILURE_GENERIC = 64,  // Generic ESC failure. 
    ESC_FAILURE_FLAGS_ENUM_END = 65,  // end marker
} ESC_FAILURE_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_STORAGE_STATUS
#define FASTMAVLINK_HAS_ENUM_STORAGE_STATUS
typedef enum STORAGE_STATUS {
    STORAGE_STATUS_EMPTY = 0,  // Storage is missing (no microSD card loaded for example.) 
    STORAGE_STATUS_UNFORMATTED = 1,  // Storage present but unformatted. 
    STORAGE_STATUS_READY = 2,  // Storage present and ready. 
    STORAGE_STATUS_NOT_SUPPORTED = 3,  // Camera does not supply storage status information. Capacity information in STORAGE_INFORMATION fields will be ignored. 
    STORAGE_STATUS_ENUM_END = 4,  // end marker
} STORAGE_STATUS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_STORAGE_TYPE
#define FASTMAVLINK_HAS_ENUM_STORAGE_TYPE
typedef enum STORAGE_TYPE {
    STORAGE_TYPE_UNKNOWN = 0,  // Storage type is not known. 
    STORAGE_TYPE_USB_STICK = 1,  // Storage type is USB device. 
    STORAGE_TYPE_SD = 2,  // Storage type is SD card. 
    STORAGE_TYPE_MICROSD = 3,  // Storage type is microSD card. 
    STORAGE_TYPE_CF = 4,  // Storage type is CFast. 
    STORAGE_TYPE_CFE = 5,  // Storage type is CFexpress. 
    STORAGE_TYPE_XQD = 6,  // Storage type is XQD. 
    STORAGE_TYPE_HD = 7,  // Storage type is HD mass storage type. 
    STORAGE_TYPE_OTHER = 254,  // Storage type is other, not listed type. 
    STORAGE_TYPE_ENUM_END = 255,  // end marker
} STORAGE_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_STORAGE_USAGE_FLAG
#define FASTMAVLINK_HAS_ENUM_STORAGE_USAGE_FLAG
typedef enum STORAGE_USAGE_FLAG {
    STORAGE_USAGE_FLAG_SET = 1,  // Always set to 1 (indicates STORAGE_INFORMATION.storage_usage is supported). 
    STORAGE_USAGE_FLAG_PHOTO = 2,  // Storage for saving photos. 
    STORAGE_USAGE_FLAG_VIDEO = 4,  // Storage for saving videos. 
    STORAGE_USAGE_FLAG_LOGS = 8,  // Storage for saving logs. 
    STORAGE_USAGE_FLAG_ENUM_END = 9,  // end marker
} STORAGE_USAGE_FLAG;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_ORBIT_YAW_BEHAVIOUR
#define FASTMAVLINK_HAS_ENUM_ORBIT_YAW_BEHAVIOUR
typedef enum ORBIT_YAW_BEHAVIOUR {
    ORBIT_YAW_BEHAVIOUR_HOLD_FRONT_TO_CIRCLE_CENTER = 0,  // Vehicle front points to the center (default). 
    ORBIT_YAW_BEHAVIOUR_HOLD_INITIAL_HEADING = 1,  // Vehicle front holds heading when message received. 
    ORBIT_YAW_BEHAVIOUR_UNCONTROLLED = 2,  // Yaw uncontrolled. 
    ORBIT_YAW_BEHAVIOUR_HOLD_FRONT_TANGENT_TO_CIRCLE = 3,  // Vehicle front follows flight path (tangential to circle). 
    ORBIT_YAW_BEHAVIOUR_RC_CONTROLLED = 4,  // Yaw controlled by RC input. 
    ORBIT_YAW_BEHAVIOUR_ENUM_END = 5,  // end marker
} ORBIT_YAW_BEHAVIOUR;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_WIFI_CONFIG_AP_RESPONSE
#define FASTMAVLINK_HAS_ENUM_WIFI_CONFIG_AP_RESPONSE
typedef enum WIFI_CONFIG_AP_RESPONSE {
    WIFI_CONFIG_AP_RESPONSE_UNDEFINED = 0,  // Undefined response. Likely an indicative of a system that doesn't support this request. 
    WIFI_CONFIG_AP_RESPONSE_ACCEPTED = 1,  // Changes accepted. 
    WIFI_CONFIG_AP_RESPONSE_REJECTED = 2,  // Changes rejected. 
    WIFI_CONFIG_AP_RESPONSE_MODE_ERROR = 3,  // Invalid Mode. 
    WIFI_CONFIG_AP_RESPONSE_SSID_ERROR = 4,  // Invalid SSID. 
    WIFI_CONFIG_AP_RESPONSE_PASSWORD_ERROR = 5,  // Invalid Password. 
    WIFI_CONFIG_AP_RESPONSE_ENUM_END = 6,  // end marker
} WIFI_CONFIG_AP_RESPONSE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_CELLULAR_CONFIG_RESPONSE
#define FASTMAVLINK_HAS_ENUM_CELLULAR_CONFIG_RESPONSE
typedef enum CELLULAR_CONFIG_RESPONSE {
    CELLULAR_CONFIG_RESPONSE_ACCEPTED = 0,  // Changes accepted. 
    CELLULAR_CONFIG_RESPONSE_APN_ERROR = 1,  // Invalid APN. 
    CELLULAR_CONFIG_RESPONSE_PIN_ERROR = 2,  // Invalid PIN. 
    CELLULAR_CONFIG_RESPONSE_REJECTED = 3,  // Changes rejected. 
    CELLULAR_CONFIG_BLOCKED_PUK_REQUIRED = 4,  // PUK is required to unblock SIM card. 
    CELLULAR_CONFIG_RESPONSE_ENUM_END = 5,  // end marker
} CELLULAR_CONFIG_RESPONSE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_WIFI_CONFIG_AP_MODE
#define FASTMAVLINK_HAS_ENUM_WIFI_CONFIG_AP_MODE
typedef enum WIFI_CONFIG_AP_MODE {
    WIFI_CONFIG_AP_MODE_UNDEFINED = 0,  // WiFi mode is undefined. 
    WIFI_CONFIG_AP_MODE_AP = 1,  // WiFi configured as an access point. 
    WIFI_CONFIG_AP_MODE_STATION = 2,  // WiFi configured as a station connected to an existing local WiFi network. 
    WIFI_CONFIG_AP_MODE_DISABLED = 3,  // WiFi disabled. 
    WIFI_CONFIG_AP_MODE_ENUM_END = 4,  // end marker
} WIFI_CONFIG_AP_MODE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_COMP_METADATA_TYPE
#define FASTMAVLINK_HAS_ENUM_COMP_METADATA_TYPE
typedef enum COMP_METADATA_TYPE {
    COMP_METADATA_TYPE_GENERAL = 0,  // General information about the component. General metadata includes information about other metadata types supported by the component. Files of this type must be supported, and must be downloadable from vehicle using a MAVLink FTP URI. 
    COMP_METADATA_TYPE_PARAMETER = 1,  // Parameter meta data. 
    COMP_METADATA_TYPE_COMMANDS = 2,  // Meta data that specifies which commands and command parameters the vehicle supports. (WIP) 
    COMP_METADATA_TYPE_PERIPHERALS = 3,  // Meta data that specifies external non-MAVLink peripherals. 
    COMP_METADATA_TYPE_EVENTS = 4,  // Meta data for the events interface. 
    COMP_METADATA_TYPE_ACTUATORS = 5,  // Meta data for actuator configuration (motors, servos and vehicle geometry) and testing. 
    COMP_METADATA_TYPE_ENUM_END = 6,  // end marker
} COMP_METADATA_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_ACTUATOR_CONFIGURATION
#define FASTMAVLINK_HAS_ENUM_ACTUATOR_CONFIGURATION
typedef enum ACTUATOR_CONFIGURATION {
    ACTUATOR_CONFIGURATION_NONE = 0,  // Do nothing. 
    ACTUATOR_CONFIGURATION_BEEP = 1,  // Command the actuator to beep now. 
    ACTUATOR_CONFIGURATION_3D_MODE_ON = 2,  // Permanently set the actuator (ESC) to 3D mode (reversible thrust). 
    ACTUATOR_CONFIGURATION_3D_MODE_OFF = 3,  // Permanently set the actuator (ESC) to non 3D mode (non-reversible thrust). 
    ACTUATOR_CONFIGURATION_SPIN_DIRECTION1 = 4,  // Permanently set the actuator (ESC) to spin direction 1 (which can be clockwise or counter-clockwise). 
    ACTUATOR_CONFIGURATION_SPIN_DIRECTION2 = 5,  // Permanently set the actuator (ESC) to spin direction 2 (opposite of direction 1). 
    ACTUATOR_CONFIGURATION_ENUM_END = 6,  // end marker
} ACTUATOR_CONFIGURATION;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_ACTUATOR_OUTPUT_FUNCTION
#define FASTMAVLINK_HAS_ENUM_ACTUATOR_OUTPUT_FUNCTION
typedef enum ACTUATOR_OUTPUT_FUNCTION {
    ACTUATOR_OUTPUT_FUNCTION_NONE = 0,  // No function (disabled). 
    ACTUATOR_OUTPUT_FUNCTION_MOTOR1 = 1,  // Motor 1 
    ACTUATOR_OUTPUT_FUNCTION_MOTOR2 = 2,  // Motor 2 
    ACTUATOR_OUTPUT_FUNCTION_MOTOR3 = 3,  // Motor 3 
    ACTUATOR_OUTPUT_FUNCTION_MOTOR4 = 4,  // Motor 4 
    ACTUATOR_OUTPUT_FUNCTION_MOTOR5 = 5,  // Motor 5 
    ACTUATOR_OUTPUT_FUNCTION_MOTOR6 = 6,  // Motor 6 
    ACTUATOR_OUTPUT_FUNCTION_MOTOR7 = 7,  // Motor 7 
    ACTUATOR_OUTPUT_FUNCTION_MOTOR8 = 8,  // Motor 8 
    ACTUATOR_OUTPUT_FUNCTION_MOTOR9 = 9,  // Motor 9 
    ACTUATOR_OUTPUT_FUNCTION_MOTOR10 = 10,  // Motor 10 
    ACTUATOR_OUTPUT_FUNCTION_MOTOR11 = 11,  // Motor 11 
    ACTUATOR_OUTPUT_FUNCTION_MOTOR12 = 12,  // Motor 12 
    ACTUATOR_OUTPUT_FUNCTION_MOTOR13 = 13,  // Motor 13 
    ACTUATOR_OUTPUT_FUNCTION_MOTOR14 = 14,  // Motor 14 
    ACTUATOR_OUTPUT_FUNCTION_MOTOR15 = 15,  // Motor 15 
    ACTUATOR_OUTPUT_FUNCTION_MOTOR16 = 16,  // Motor 16 
    ACTUATOR_OUTPUT_FUNCTION_SERVO1 = 33,  // Servo 1 
    ACTUATOR_OUTPUT_FUNCTION_SERVO2 = 34,  // Servo 2 
    ACTUATOR_OUTPUT_FUNCTION_SERVO3 = 35,  // Servo 3 
    ACTUATOR_OUTPUT_FUNCTION_SERVO4 = 36,  // Servo 4 
    ACTUATOR_OUTPUT_FUNCTION_SERVO5 = 37,  // Servo 5 
    ACTUATOR_OUTPUT_FUNCTION_SERVO6 = 38,  // Servo 6 
    ACTUATOR_OUTPUT_FUNCTION_SERVO7 = 39,  // Servo 7 
    ACTUATOR_OUTPUT_FUNCTION_SERVO8 = 40,  // Servo 8 
    ACTUATOR_OUTPUT_FUNCTION_SERVO9 = 41,  // Servo 9 
    ACTUATOR_OUTPUT_FUNCTION_SERVO10 = 42,  // Servo 10 
    ACTUATOR_OUTPUT_FUNCTION_SERVO11 = 43,  // Servo 11 
    ACTUATOR_OUTPUT_FUNCTION_SERVO12 = 44,  // Servo 12 
    ACTUATOR_OUTPUT_FUNCTION_SERVO13 = 45,  // Servo 13 
    ACTUATOR_OUTPUT_FUNCTION_SERVO14 = 46,  // Servo 14 
    ACTUATOR_OUTPUT_FUNCTION_SERVO15 = 47,  // Servo 15 
    ACTUATOR_OUTPUT_FUNCTION_SERVO16 = 48,  // Servo 16 
    ACTUATOR_OUTPUT_FUNCTION_ENUM_END = 49,  // end marker
} ACTUATOR_OUTPUT_FUNCTION;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_AUTOTUNE_AXIS
#define FASTMAVLINK_HAS_ENUM_AUTOTUNE_AXIS
typedef enum AUTOTUNE_AXIS {
    AUTOTUNE_AXIS_DEFAULT = 0,  // Flight stack tunes axis according to its default settings. 
    AUTOTUNE_AXIS_ROLL = 1,  // Autotune roll axis. 
    AUTOTUNE_AXIS_PITCH = 2,  // Autotune pitch axis. 
    AUTOTUNE_AXIS_YAW = 4,  // Autotune yaw axis. 
    AUTOTUNE_AXIS_ENUM_END = 5,  // end marker
} AUTOTUNE_AXIS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_PREFLIGHT_STORAGE_PARAMETER_ACTION
#define FASTMAVLINK_HAS_ENUM_PREFLIGHT_STORAGE_PARAMETER_ACTION
typedef enum PREFLIGHT_STORAGE_PARAMETER_ACTION {
    PARAM_READ_PERSISTENT = 0,  // Read all parameters from persistent storage. Replaces values in volatile storage. 
    PARAM_WRITE_PERSISTENT = 1,  // Write all parameter values to persistent storage (flash/EEPROM) 
    PARAM_RESET_CONFIG_DEFAULT = 2,  // Reset all user configurable parameters to their default value (including airframe selection, sensor calibration data, safety settings, and so on). Does not reset values that contain operation counters and vehicle computed statistics. 
    PARAM_RESET_SENSOR_DEFAULT = 3,  // Reset only sensor calibration parameters to factory defaults (or firmware default if not available) 
    PARAM_RESET_ALL_DEFAULT = 4,  // Reset all parameters, including operation counters, to default values 
    PREFLIGHT_STORAGE_PARAMETER_ACTION_ENUM_END = 5,  // end marker
} PREFLIGHT_STORAGE_PARAMETER_ACTION;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_PREFLIGHT_STORAGE_MISSION_ACTION
#define FASTMAVLINK_HAS_ENUM_PREFLIGHT_STORAGE_MISSION_ACTION
typedef enum PREFLIGHT_STORAGE_MISSION_ACTION {
    MISSION_READ_PERSISTENT = 0,  // Read current mission data from persistent storage 
    MISSION_WRITE_PERSISTENT = 1,  // Write current mission data to persistent storage 
    MISSION_RESET_DEFAULT = 2,  // Erase all mission data stored on the vehicle (both persistent and volatile storage) 
    PREFLIGHT_STORAGE_MISSION_ACTION_ENUM_END = 3,  // end marker
} PREFLIGHT_STORAGE_MISSION_ACTION;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_CMD
#define FASTMAVLINK_HAS_ENUM_MAV_CMD
typedef enum MAV_CMD {
    MAV_CMD_NAV_WAYPOINT = 16,  // Navigate to waypoint. This is intended for use in missions (for guided commands outside of missions use MAV_CMD_DO_REPOSITION). | Hold time. (ignored by fixed wing, time to stay at waypoint for rotary wing) | Acceptance radius (if the sphere with this radius is hit, the waypoint counts as reached) | 0 to pass through the WP, if > 0 radius to pass by WP. Positive value for clockwise orbit, negative value for counter-clockwise orbit. Allows trajectory control. | Desired yaw angle at waypoint (rotary wing). NaN to use the current system yaw heading mode (e.g. yaw towards next waypoint, yaw to home, etc.). | Latitude | Longitude | Altitude
    MAV_CMD_NAV_LOITER_UNLIM = 17,  // Loiter around this waypoint an unlimited amount of time | Empty | Empty | Loiter radius around waypoint for forward-only moving vehicles (not multicopters). If positive loiter clockwise, else counter-clockwise | Desired yaw angle. NaN to use the current system yaw heading mode (e.g. yaw towards next waypoint, yaw to home, etc.). | Latitude | Longitude | Altitude
    MAV_CMD_NAV_LOITER_TURNS = 18,  // Loiter around this waypoint for X turns | Number of turns. | Leave loiter circle only once heading towards the next waypoint (0 = False) | Loiter radius around waypoint for forward-only moving vehicles (not multicopters). If positive loiter clockwise, else counter-clockwise | Loiter circle exit location and/or path to next waypoint ("xtrack") for forward-only moving vehicles (not multicopters). 0 for the vehicle to converge towards the center xtrack when it leaves the loiter (the line between the centers of the current and next waypoint), 1 to converge to the direct line between the location that the vehicle exits the loiter radius and the next waypoint. Otherwise the angle (in degrees) between the tangent of the loiter circle and the center xtrack at which the vehicle must leave the loiter (and converge to the center xtrack). NaN to use the current system default xtrack behaviour. | Latitude | Longitude | Altitude
    MAV_CMD_NAV_LOITER_TIME = 19,  // Loiter at the specified latitude, longitude and altitude for a certain amount of time. Multicopter vehicles stop at the point (within a vehicle-specific acceptance radius). Forward-only moving vehicles (e.g. fixed-wing) circle the point with the specified radius/direction. If the Heading Required parameter (2) is non-zero forward moving aircraft will only leave the loiter circle once heading towards the next waypoint. | Loiter time (only starts once Lat, Lon and Alt is reached). | Leave loiter circle only once heading towards the next waypoint (0 = False) | Loiter radius around waypoint for forward-only moving vehicles (not multicopters). If positive loiter clockwise, else counter-clockwise. | Loiter circle exit location and/or path to next waypoint ("xtrack") for forward-only moving vehicles (not multicopters). 0 for the vehicle to converge towards the center xtrack when it leaves the loiter (the line between the centers of the current and next waypoint), 1 to converge to the direct line between the location that the vehicle exits the loiter radius and the next waypoint. Otherwise the angle (in degrees) between the tangent of the loiter circle and the center xtrack at which the vehicle must leave the loiter (and converge to the center xtrack). NaN to use the current system default xtrack behaviour. | Latitude | Longitude | Altitude
    MAV_CMD_NAV_RETURN_TO_LAUNCH = 20,  // Return to launch location | Empty | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_NAV_LAND = 21,  // Land at location. | Minimum target altitude if landing is aborted (0 = undefined/use system default). | Precision land mode. | Empty. | Desired yaw angle. NaN to use the current system yaw heading mode (e.g. yaw towards next waypoint, yaw to home, etc.). | Latitude. | Longitude. | Landing altitude (ground level in current frame).
    MAV_CMD_NAV_TAKEOFF = 22,  // Takeoff from ground / hand. Vehicles that support multiple takeoff modes (e.g. VTOL quadplane) should take off using the currently configured mode. | Minimum pitch (if airspeed sensor present), desired pitch without sensor | Empty | Empty | Yaw angle (if magnetometer present), ignored without magnetometer. NaN to use the current system yaw heading mode (e.g. yaw towards next waypoint, yaw to home, etc.). | Latitude | Longitude | Altitude
    MAV_CMD_NAV_LAND_LOCAL = 23,  // Land at local position (local frame only) | Landing target number (if available) | Maximum accepted offset from desired landing position - computed magnitude from spherical coordinates: d = sqrt(x^2 + y^2 + z^2), which gives the maximum accepted distance between the desired landing position and the position where the vehicle is about to land | Landing descend rate | Desired yaw angle | Y-axis position | X-axis position | Z-axis / ground level position
    MAV_CMD_NAV_TAKEOFF_LOCAL = 24,  // Takeoff from local position (local frame only) | Minimum pitch (if airspeed sensor present), desired pitch without sensor | Empty | Takeoff ascend rate | Yaw angle (if magnetometer or another yaw estimation source present), ignored without one of these | Y-axis position | X-axis position | Z-axis position
    MAV_CMD_NAV_FOLLOW = 25,  // Vehicle following, i.e. this waypoint represents the position of a moving vehicle | Following logic to use (e.g. loitering or sinusoidal following) - depends on specific autopilot implementation | Ground speed of vehicle to be followed | Radius around waypoint. If positive loiter clockwise, else counter-clockwise | Desired yaw angle. | Latitude | Longitude | Altitude
    MAV_CMD_NAV_CONTINUE_AND_CHANGE_ALT = 30,  // Continue on the current course and climb/descend to specified altitude.  When the altitude is reached continue to the next command (i.e., don't proceed to the next command until the desired altitude is reached. | Climb or Descend (0 = Neutral, command completes when within 5m of this command's altitude, 1 = Climbing, command completes when at or above this command's altitude, 2 = Descending, command completes when at or below this command's altitude. | Empty | Empty | Empty | Empty | Empty | Desired altitude
    MAV_CMD_NAV_LOITER_TO_ALT = 31,  // Begin loiter at the specified Latitude and Longitude.  If Lat=Lon=0, then loiter at the current position.  Don't consider the navigation command complete (don't leave loiter) until the altitude has been reached. Additionally, if the Heading Required parameter is non-zero the aircraft will not leave the loiter until heading toward the next waypoint. | Leave loiter circle only once heading towards the next waypoint (0 = False) | Loiter radius around waypoint for forward-only moving vehicles (not multicopters). If positive loiter clockwise, negative counter-clockwise, 0 means no change to standard loiter. | Empty | Loiter circle exit location and/or path to next waypoint ("xtrack") for forward-only moving vehicles (not multicopters). 0 for the vehicle to converge towards the center xtrack when it leaves the loiter (the line between the centers of the current and next waypoint), 1 to converge to the direct line between the location that the vehicle exits the loiter radius and the next waypoint. Otherwise the angle (in degrees) between the tangent of the loiter circle and the center xtrack at which the vehicle must leave the loiter (and converge to the center xtrack). NaN to use the current system default xtrack behaviour. | Latitude | Longitude | Altitude
    MAV_CMD_DO_FOLLOW = 32,  // Begin following a target | System ID (of the FOLLOW_TARGET beacon). Send 0 to disable follow-me and return to the default position hold mode. | Reserved | Reserved | Altitude mode: 0: Keep current altitude, 1: keep altitude difference to target, 2: go to a fixed altitude above home. | Altitude above home. (used if mode=2) | Reserved | Time to land in which the MAV should go to the default position hold mode after a message RX timeout.
    MAV_CMD_DO_FOLLOW_REPOSITION = 33,  // Reposition the MAV after a follow target command has been sent | Camera q1 (where 0 is on the ray from the camera to the tracking device) | Camera q2 | Camera q3 | Camera q4 | altitude offset from target | X offset from target | Y offset from target
    MAV_CMD_DO_ORBIT = 34,  // Start orbiting on the circumference of a circle defined by the parameters. Setting values to NaN/INT32_MAX (as appropriate) results in using defaults. | Radius of the circle. Positive: orbit clockwise. Negative: orbit counter-clockwise. NaN: Use vehicle default radius, or current radius if already orbiting. | Tangential Velocity. NaN: Use vehicle default velocity, or current velocity if already orbiting. | Yaw behavior of the vehicle. | Orbit around the centre point for this many radians (i.e. for a three-quarter orbit set 270*Pi/180). 0: Orbit forever. NaN: Use vehicle default, or current value if already orbiting. | Center point latitude (if no MAV_FRAME specified) / X coordinate according to MAV_FRAME. INT32_MAX (or NaN if sent in COMMAND_LONG): Use current vehicle position, or current center if already orbiting. | Center point longitude (if no MAV_FRAME specified) / Y coordinate according to MAV_FRAME. INT32_MAX (or NaN if sent in COMMAND_LONG): Use current vehicle position, or current center if already orbiting. | Center point altitude (MSL) (if no MAV_FRAME specified) / Z coordinate according to MAV_FRAME. NaN: Use current vehicle altitude.
    MAV_CMD_NAV_ROI = 80,  // Sets the region of interest (ROI) for a sensor set or the vehicle itself. This can then be used by the vehicle's control system to control the vehicle attitude and the attitude of various sensors such as cameras. | Region of interest mode. | Waypoint index/ target ID. (see MAV_ROI enum) | ROI index (allows a vehicle to manage multiple ROI's) | Empty | x the location of the fixed ROI (see MAV_FRAME) | y | z
    MAV_CMD_NAV_PATHPLANNING = 81,  // Control autonomous path planning on the MAV. | 0: Disable local obstacle avoidance / local path planning (without resetting map), 1: Enable local path planning, 2: Enable and reset local path planning | 0: Disable full path planning (without resetting map), 1: Enable, 2: Enable and reset map/occupancy grid, 3: Enable and reset planned route, but not occupancy grid | Empty | Yaw angle at goal | Latitude/X of goal | Longitude/Y of goal | Altitude/Z of goal
    MAV_CMD_NAV_SPLINE_WAYPOINT = 82,  // Navigate to waypoint using a spline path. | Hold time. (ignored by fixed wing, time to stay at waypoint for rotary wing) | Empty | Empty | Empty | Latitude/X of goal | Longitude/Y of goal | Altitude/Z of goal
    MAV_CMD_NAV_VTOL_TAKEOFF = 84,  // Takeoff from ground using VTOL mode, and transition to forward flight with specified heading. The command should be ignored by vehicles that dont support both VTOL and fixed-wing flight (multicopters, boats,etc.). | Empty | Front transition heading. | Empty | Yaw angle. NaN to use the current system yaw heading mode (e.g. yaw towards next waypoint, yaw to home, etc.). | Latitude | Longitude | Altitude
    MAV_CMD_NAV_VTOL_LAND = 85,  // Land using VTOL mode | Landing behaviour. | Empty | Approach altitude (with the same reference as the Altitude field). NaN if unspecified. | Yaw angle. NaN to use the current system yaw heading mode (e.g. yaw towards next waypoint, yaw to home, etc.). | Latitude | Longitude | Altitude (ground level) relative to the current coordinate frame. NaN to use system default landing altitude (ignore value).
    MAV_CMD_NAV_GUIDED_ENABLE = 92,  // hand control over to an external controller | On / Off (> 0.5f on) | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_NAV_DELAY = 93,  // Delay the next navigation command a number of seconds or until a specified time | Delay (-1 to enable time-of-day fields) | hour (24h format, UTC, -1 to ignore) | minute (24h format, UTC, -1 to ignore) | second (24h format, UTC, -1 to ignore) | Empty | Empty | Empty
    MAV_CMD_NAV_PAYLOAD_PLACE = 94,  // Descend and place payload. Vehicle moves to specified location, descends until it detects a hanging payload has reached the ground, and then releases the payload. If ground is not detected before the reaching the maximum descent value (param1), the command will complete without releasing the payload. | Maximum distance to descend. | Empty | Empty | Empty | Latitude | Longitude | Altitude
    MAV_CMD_NAV_LAST = 95,  // NOP - This command is only used to mark the upper limit of the NAV/ACTION commands in the enumeration | Empty | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_CONDITION_DELAY = 112,  // Delay mission state machine. | Delay | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_CONDITION_CHANGE_ALT = 113,  // Ascend/descend to target altitude at specified rate. Delay mission state machine until desired altitude reached. | Descent / Ascend rate. | Empty | Empty | Empty | Empty | Empty | Target Altitude
    MAV_CMD_CONDITION_DISTANCE = 114,  // Delay mission state machine until within desired distance of next NAV point. | Distance. | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_CONDITION_YAW = 115,  // Reach a certain target angle. | target angle [0-360]. Absolute angles: 0 is north. Relative angle: 0 is initial yaw. Direction set by param3. | angular speed | direction: -1: counter clockwise, 0: shortest direction, 1: clockwise | 0: absolute angle, 1: relative offset | Empty | Empty | Empty
    MAV_CMD_CONDITION_LAST = 159,  // NOP - This command is only used to mark the upper limit of the CONDITION commands in the enumeration | Empty | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_SET_MODE = 176,  // Set system mode. | Mode | Custom mode - this is system specific, please refer to the individual autopilot specifications for details. | Custom sub mode - this is system specific, please refer to the individual autopilot specifications for details. | Empty | Empty | Empty | Empty
    MAV_CMD_DO_JUMP = 177,  // Jump to the desired command in the mission list.  Repeat this action only the specified number of times | Sequence number | Repeat count | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_CHANGE_SPEED = 178,  // Change speed and/or throttle set points. The value persists until it is overridden or there is a mode change | Speed type of value set in param2 (such as airspeed, ground speed, and so on) | Speed (-1 indicates no change, -2 indicates return to default vehicle speed) | Throttle (-1 indicates no change, -2 indicates return to default vehicle throttle value) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_DO_SET_HOME = 179,  //           Sets the home position to either to the current position or a specified position.          The home position is the default position that the system will return to and land on.          The position is set automatically by the system during the takeoff (and may also be set using this command).          Note: the current home position may be emitted in a HOME_POSITION message on request (using MAV_CMD_REQUEST_MESSAGE with param1=242).         | Use current (1=use current location, 0=use specified location) | Roll angle (of surface). Range: -180..180 degrees. NAN or 0 means value not set. 0.01 indicates zero roll. | Pitch angle (of surface). Range: -90..90 degrees. NAN or 0 means value not set. 0.01 means zero pitch. | Yaw angle. NaN to use default heading. Range: -180..180 degrees. | Latitude | Longitude | Altitude
    MAV_CMD_DO_SET_PARAMETER = 180,  // Set a system parameter.  Caution!  Use of this command requires knowledge of the numeric enumeration value of the parameter. | Parameter number | Parameter value | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_SET_RELAY = 181,  // Set a relay to a condition. | Relay instance number. | Setting. (1=on, 0=off, others possible depending on system hardware) | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_REPEAT_RELAY = 182,  // Cycle a relay on and off for a desired number of cycles with a desired period. | Relay instance number. | Cycle count. | Cycle time. | Empty | Empty | Empty | Empty
    MAV_CMD_DO_SET_SERVO = 183,  // Set a servo to a desired PWM value. | Servo instance number. | Pulse Width Modulation. | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_REPEAT_SERVO = 184,  // Cycle a between its nominal setting and a desired PWM for a desired number of cycles with a desired period. | Servo instance number. | Pulse Width Modulation. | Cycle count. | Cycle time. | Empty | Empty | Empty
    MAV_CMD_DO_FLIGHTTERMINATION = 185,  // Terminate flight immediately.          Flight termination immediately and irreversibly terminates the current flight, returning the vehicle to ground.          The vehicle will ignore RC or other input until it has been power-cycled.          Termination may trigger safety measures, including: disabling motors and deployment of parachute on multicopters, and setting flight surfaces to initiate a landing pattern on fixed-wing).          On multicopters without a parachute it may trigger a crash landing.          Support for this command can be tested using the protocol bit: MAV_PROTOCOL_CAPABILITY_FLIGHT_TERMINATION.          Support for this command can also be tested by sending the command with param1=0 (< 0.5); the ACK should be either MAV_RESULT_FAILED or MAV_RESULT_UNSUPPORTED.         | Flight termination activated if > 0.5. Otherwise not activated and ACK with MAV_RESULT_FAILED. | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_CHANGE_ALTITUDE = 186,  // Change altitude set point. | Altitude. | Frame of new altitude. | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_SET_ACTUATOR = 187,  // Sets actuators (e.g. servos) to a desired value. The actuator numbers are mapped to specific outputs (e.g. on any MAIN or AUX PWM or UAVCAN) using a flight-stack specific mechanism (i.e. a parameter). | Actuator 1 value, scaled from [-1 to 1]. NaN to ignore. | Actuator 2 value, scaled from [-1 to 1]. NaN to ignore. | Actuator 3 value, scaled from [-1 to 1]. NaN to ignore. | Actuator 4 value, scaled from [-1 to 1]. NaN to ignore. | Actuator 5 value, scaled from [-1 to 1]. NaN to ignore. | Actuator 6 value, scaled from [-1 to 1]. NaN to ignore. | Index of actuator set (i.e if set to 1, Actuator 1 becomes Actuator 7)
    MAV_CMD_DO_RETURN_PATH_START = 188,  // Mission item to specify the start of a failsafe/landing return-path segment (the end of the segment is the next MAV_CMD_DO_LAND_START item).          A vehicle that is using missions for landing (e.g. in a return mode) will join the mission on the closest path of the return-path segment (instead of MAV_CMD_DO_LAND_START or the nearest waypoint).          The main use case is to minimize the failsafe flight path in corridor missions, where the inbound/outbound paths are constrained (by geofences) to the same particular path.          The MAV_CMD_NAV_RETURN_PATH_START would be placed at the start of the return path.          If a failsafe occurs on the outbound path the vehicle will move to the nearest point on the return path (which is parallel for this kind of mission), effectively turning round and following the shortest path to landing.          If a failsafe occurs on the inbound path the vehicle is already on the return segment and will continue to landing.          The Latitude/Longitude/Altitude are optional, and may be set to 0 if not needed.          If specified, the item defines the waypoint at which the return segment starts.          If sent using as a command, the vehicle will perform a mission landing (using the land segment if defined) or reject the command if mission landings are not supported, or no mission landing is defined. When used as a command any position information in the command is ignored.         | Empty | Empty | Empty | Empty | Latitudee. 0: not used. | Longitudee. 0: not used. | Altitudee. 0: not used.
    MAV_CMD_DO_LAND_START = 189,  // Mission command to perform a landing. This is used as a marker in a mission to tell the autopilot where a sequence of mission items that represents a landing starts.	  It may also be sent via a COMMAND_LONG to trigger a landing, in which case the nearest (geographically) landing sequence in the mission will be used.	  The Latitude/Longitude/Altitude is optional, and may be set to 0 if not needed. If specified then it will be used to help find the closest landing sequence.	 | Empty | Empty | Empty | Empty | Latitude | Longitude | Altitude
    MAV_CMD_DO_RALLY_LAND = 190,  // Mission command to perform a landing from a rally point. | Break altitude | Landing speed | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_GO_AROUND = 191,  // Mission command to safely abort an autonomous landing. | Altitude | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_REPOSITION = 192,  // Reposition the vehicle to a specific WGS84 global position. This command is intended for guided commands (for missions use MAV_CMD_NAV_WAYPOINT instead). | Ground speed, less than 0 (-1) for default | Bitmask of option flags. | Loiter radius for planes. Positive values only, direction is controlled by Yaw value. A value of zero or NaN is ignored.  | Yaw heading. NaN to use the current system yaw heading mode (e.g. yaw towards next waypoint, yaw to home, etc.). For planes indicates loiter direction (0: clockwise, 1: counter clockwise) | Latitude | Longitude | Altitude
    MAV_CMD_DO_PAUSE_CONTINUE = 193,  // If in a GPS controlled position mode, hold the current position or continue. | 0: Pause current mission or reposition command, hold current position. 1: Continue mission. A VTOL capable vehicle should enter hover mode (multicopter and VTOL planes). A plane should loiter with the default loiter radius. | Reserved | Reserved | Reserved | Reserved | Reserved | Reserved
    MAV_CMD_DO_SET_REVERSE = 194,  // Set moving direction to forward or reverse. | Direction (0=Forward, 1=Reverse) | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_SET_ROI_LOCATION = 195,  // Sets the region of interest (ROI) to a location. This can then be used by the vehicle's control system to control the vehicle attitude and the attitude of various sensors such as cameras. This command can be sent to a gimbal manager but not to a gimbal device. A gimbal is not to react to this message. | Component ID of gimbal device to address (or 1-6 for non-MAVLink gimbal), 0 for all gimbal device components. Send command multiple times for more than one gimbal (but not all gimbals). | Empty | Empty | Empty | Latitude of ROI location | Longitude of ROI location | Altitude of ROI location
    MAV_CMD_DO_SET_ROI_WPNEXT_OFFSET = 196,  // Sets the region of interest (ROI) to be toward next waypoint, with optional pitch/roll/yaw offset. This can then be used by the vehicle's control system to control the vehicle attitude and the attitude of various sensors such as cameras. This command can be sent to a gimbal manager but not to a gimbal device. A gimbal device is not to react to this message. | Component ID of gimbal device to address (or 1-6 for non-MAVLink gimbal), 0 for all gimbal device components. Send command multiple times for more than one gimbal (but not all gimbals). | Empty | Empty | Empty | Pitch offset from next waypoint, positive pitching up | Roll offset from next waypoint, positive rolling to the right | Yaw offset from next waypoint, positive yawing to the right
    MAV_CMD_DO_SET_ROI_NONE = 197,  // Cancels any previous ROI command returning the vehicle/sensors to default flight characteristics. This can then be used by the vehicle's control system to control the vehicle attitude and the attitude of various sensors such as cameras. This command can be sent to a gimbal manager but not to a gimbal device. A gimbal device is not to react to this message. After this command the gimbal manager should go back to manual input if available, and otherwise assume a neutral position. | Component ID of gimbal device to address (or 1-6 for non-MAVLink gimbal), 0 for all gimbal device components. Send command multiple times for more than one gimbal (but not all gimbals). | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_SET_ROI_SYSID = 198,  // Mount tracks system with specified system ID. Determination of target vehicle position may be done with GLOBAL_POSITION_INT or any other means. This command can be sent to a gimbal manager but not to a gimbal device. A gimbal device is not to react to this message. | System ID | Component ID of gimbal device to address (or 1-6 for non-MAVLink gimbal), 0 for all gimbal device components. Send command multiple times for more than one gimbal (but not all gimbals). | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_DO_CONTROL_VIDEO = 200,  // Control onboard camera system. | Camera ID (-1 for all) | Transmission: 0: disabled, 1: enabled compressed, 2: enabled raw | Transmission mode: 0: video stream, >0: single images every n seconds | Recording: 0: disabled, 1: enabled compressed, 2: enabled raw | Empty | Empty | Empty
    MAV_CMD_DO_SET_ROI = 201,  // Sets the region of interest (ROI) for a sensor set or the vehicle itself. This can then be used by the vehicle's control system to control the vehicle attitude and the attitude of various sensors such as cameras. | Region of interest mode. | Waypoint index/ target ID (depends on param 1). | Region of interest index. (allows a vehicle to manage multiple ROI's) | Empty | MAV_ROI_WPNEXT: pitch offset from next waypoint, MAV_ROI_LOCATION: latitude | MAV_ROI_WPNEXT: roll offset from next waypoint, MAV_ROI_LOCATION: longitude | MAV_ROI_WPNEXT: yaw offset from next waypoint, MAV_ROI_LOCATION: altitude
    MAV_CMD_DO_DIGICAM_CONFIGURE = 202,  // Configure digital camera. This is a fallback message for systems that have not yet implemented PARAM_EXT_XXX messages and camera definition files (see https://mavlink.io/en/services/camera_def.html ). | Modes: P, TV, AV, M, Etc. | Shutter speed: Divisor number for one second. | Aperture: F stop number. | ISO number e.g. 80, 100, 200, Etc. | Exposure type enumerator. | Command Identity. | Main engine cut-off time before camera trigger. (0 means no cut-off)
    MAV_CMD_DO_DIGICAM_CONTROL = 203,  // Control digital camera. This is a fallback message for systems that have not yet implemented PARAM_EXT_XXX messages and camera definition files (see https://mavlink.io/en/services/camera_def.html ). | Session control e.g. show/hide lens | Zoom's absolute position | Zooming step value to offset zoom from the current position | Focus Locking, Unlocking or Re-locking | Shooting Command | Command Identity | Test shot identifier. If set to 1, image will only be captured, but not counted towards internal frame count.
    MAV_CMD_DO_MOUNT_CONFIGURE = 204,  // Mission command to configure a camera or antenna mount | Mount operation mode | stabilize roll? (1 = yes, 0 = no) | stabilize pitch? (1 = yes, 0 = no) | stabilize yaw? (1 = yes, 0 = no) | roll input (0 = angle body frame, 1 = angular rate, 2 = angle absolute frame) | pitch input (0 = angle body frame, 1 = angular rate, 2 = angle absolute frame) | yaw input (0 = angle body frame, 1 = angular rate, 2 = angle absolute frame)
    MAV_CMD_DO_MOUNT_CONTROL = 205,  // Mission command to control a camera or antenna mount | pitch depending on mount mode (degrees or degrees/second depending on pitch input). | roll depending on mount mode (degrees or degrees/second depending on roll input). | yaw depending on mount mode (degrees or degrees/second depending on yaw input). | altitude depending on mount mode. | latitude, set if appropriate mount mode. | longitude, set if appropriate mount mode. | Mount mode.
    MAV_CMD_DO_SET_CAM_TRIGG_DIST = 206,  // Mission command to set camera trigger distance for this flight. The camera is triggered each time this distance is exceeded. This command can also be used to set the shutter integration time for the camera. | Camera trigger distance. 0 to stop triggering. | Camera shutter integration time. -1 or 0 to ignore | Trigger camera once immediately. (0 = no trigger, 1 = trigger) | Empty | Empty | Empty | Empty
    MAV_CMD_DO_FENCE_ENABLE = 207,  //           Enable the geofence.          This can be used in a mission or via the command protocol.          The persistence/lifetime of the setting is undefined.          Depending on flight stack implementation it may persist until superseded, or it may revert to a system default at the end of a mission.          Flight stacks typically reset the setting to system defaults on reboot.	 | enable? (0=disable, 1=enable, 2=disable_floor_only) | Fence types to enable or disable as a bitmask. A value of 0 indicates that all fences should be enabled or disabled. This parameter is ignored if param 1 has the value 2 | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_PARACHUTE = 208,  // Mission item/command to release a parachute or enable/disable auto release. | Action | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_MOTOR_TEST = 209,  // Command to perform motor test. | Motor instance number (from 1 to max number of motors on the vehicle). | Throttle type (whether the Throttle Value in param3 is a percentage, PWM value, etc.) | Throttle value. | Timeout between tests that are run in sequence. | Motor count. Number of motors to test in sequence: 0/1=one motor, 2= two motors, etc. The Timeout (param4) is used between tests. | Motor test order. | Empty
    MAV_CMD_DO_INVERTED_FLIGHT = 210,  // Change to/from inverted flight. | Inverted flight. (0=normal, 1=inverted) | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_GRIPPER = 211,  // Mission command to operate a gripper. | Gripper instance number. | Gripper action to perform. | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_AUTOTUNE_ENABLE = 212,  // Enable/disable autotune. | Enable (1: enable, 0:disable). | Specify which axis are autotuned. 0 indicates autopilot default settings. | Empty. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_NAV_SET_YAW_SPEED = 213,  // Sets a desired vehicle turn angle and speed change. | Yaw angle to adjust steering by. | Speed. | Final angle. (0=absolute, 1=relative) | Empty | Empty | Empty | Empty
    MAV_CMD_DO_SET_CAM_TRIGG_INTERVAL = 214,  // Mission command to set camera trigger interval for this flight. If triggering is enabled, the camera is triggered each time this interval expires. This command can also be used to set the shutter integration time for the camera. | Camera trigger cycle time. -1 or 0 to ignore. | Camera shutter integration time. Should be less than trigger cycle time. -1 or 0 to ignore. | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_MOUNT_CONTROL_QUAT = 220,  // Mission command to control a camera or antenna mount, using a quaternion as reference. | quaternion param q1, w (1 in null-rotation) | quaternion param q2, x (0 in null-rotation) | quaternion param q3, y (0 in null-rotation) | quaternion param q4, z (0 in null-rotation) | Empty | Empty | Empty
    MAV_CMD_DO_GUIDED_MASTER = 221,  // set id of master controller | System ID | Component ID | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_GUIDED_LIMITS = 222,  // Set limits for external control | Timeout - maximum time that external controller will be allowed to control vehicle. 0 means no timeout. | Altitude (MSL) min - if vehicle moves below this alt, the command will be aborted and the mission will continue. 0 means no lower altitude limit. | Altitude (MSL) max - if vehicle moves above this alt, the command will be aborted and the mission will continue. 0 means no upper altitude limit. | Horizontal move limit - if vehicle moves more than this distance from its location at the moment the command was executed, the command will be aborted and the mission will continue. 0 means no horizontal move limit. | Empty | Empty | Empty
    MAV_CMD_DO_ENGINE_CONTROL = 223,  // Control vehicle engine. This is interpreted by the vehicles engine controller to change the target engine state. It is intended for vehicles with internal combustion engines | 0: Stop engine, 1:Start Engine | 0: Warm start, 1:Cold start. Controls use of choke where applicable | Height delay. This is for commanding engine start only after the vehicle has gained the specified height. Used in VTOL vehicles during takeoff to start engine after the aircraft is off the ground. Zero for no delay. | Empty | Empty | Empty | Empty
    MAV_CMD_DO_SET_MISSION_CURRENT = 224,  //           Set the mission item with sequence number seq as the current item and emit MISSION_CURRENT (whether or not the mission number changed).          If a mission is currently being executed, the system will continue to this new mission item on the shortest path, skipping any intermediate mission items.	  Note that mission jump repeat counters are not reset unless param2 is set (see MAV_CMD_DO_JUMP param2).          This command may trigger a mission state-machine change on some systems: for example from MISSION_STATE_NOT_STARTED or MISSION_STATE_PAUSED to MISSION_STATE_ACTIVE.          If the system is in mission mode, on those systems this command might therefore start, restart or resume the mission.          If the system is not in mission mode this command must not trigger a switch to mission mode.          The mission may be "reset" using param2.          Resetting sets jump counters to initial values (to reset counters without changing the current mission item set the param1 to `-1`).          Resetting also explicitly changes a mission state of MISSION_STATE_COMPLETE to MISSION_STATE_PAUSED or MISSION_STATE_ACTIVE, potentially allowing it to resume when it is (next) in a mission mode.	  The command will ACK with MAV_RESULT_FAILED if the sequence number is out of range (including if there is no mission item).         | Mission sequence value to set. -1 for the current mission item (use to reset mission without changing current mission item). | Resets mission. 1: true, 0: false. Resets jump counters to initial values and changes mission state "completed" to be "active" or "paused". | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_LAST = 240,  // NOP - This command is only used to mark the upper limit of the DO commands in the enumeration | Empty | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_PREFLIGHT_CALIBRATION = 241,  // Trigger calibration. This command will be only accepted if in pre-flight mode. Except for Temperature Calibration, only one sensor should be set in a single message and all others should be zero. | 1: gyro calibration, 3: gyro temperature calibration | 1: magnetometer calibration | 1: ground pressure calibration | 1: radio RC calibration, 2: RC trim calibration | 1: accelerometer calibration, 2: board level calibration, 3: accelerometer temperature calibration, 4: simple accelerometer calibration | 1: APM: compass/motor interference calibration (PX4: airspeed calibration, deprecated), 2: airspeed calibration | 1: ESC calibration, 3: barometer temperature calibration
    MAV_CMD_PREFLIGHT_SET_SENSOR_OFFSETS = 242,  // Set sensor offsets. This command will be only accepted if in pre-flight mode. | Sensor to adjust the offsets for: 0: gyros, 1: accelerometer, 2: magnetometer, 3: barometer, 4: optical flow, 5: second magnetometer, 6: third magnetometer | X axis offset (or generic dimension 1), in the sensor's raw units | Y axis offset (or generic dimension 2), in the sensor's raw units | Z axis offset (or generic dimension 3), in the sensor's raw units | Generic dimension 4, in the sensor's raw units | Generic dimension 5, in the sensor's raw units | Generic dimension 6, in the sensor's raw units
    MAV_CMD_PREFLIGHT_UAVCAN = 243,  // Trigger UAVCAN configuration (actuator ID assignment and direction mapping). Note that this maps to the legacy UAVCAN v0 function UAVCAN_ENUMERATE, which is intended to be executed just once during initial vehicle configuration (it is not a normal pre-flight command and has been poorly named). | 1: Trigger actuator ID assignment and direction mapping. 0: Cancel command. | Reserved | Reserved | Reserved | Reserved | Reserved | Reserved
    MAV_CMD_PREFLIGHT_STORAGE = 245,  // Request storage of different parameter values and logs. This command will be only accepted if in pre-flight mode. | Action to perform on the persistent parameter storage | Action to perform on the persistent mission storage | Onboard logging: 0: Ignore, 1: Start default rate logging, -1: Stop logging, > 1: logging rate (e.g. set to 1000 for 1000 Hz logging) | Reserved | Empty | Empty | Empty
    MAV_CMD_PREFLIGHT_REBOOT_SHUTDOWN = 246,  // Request the reboot or shutdown of system components. | 0: Do nothing for autopilot, 1: Reboot autopilot, 2: Shutdown autopilot, 3: Reboot autopilot and keep it in the bootloader until upgraded. | 0: Do nothing for onboard computer, 1: Reboot onboard computer, 2: Shutdown onboard computer, 3: Reboot onboard computer and keep it in the bootloader until upgraded. | 0: Do nothing for component, 1: Reboot component, 2: Shutdown component, 3: Reboot component and keep it in the bootloader until upgraded | MAVLink Component ID targeted in param3 (0 for all components). | Reserved (set to 0) | Reserved (set to 0) | WIP: ID (e.g. camera ID -1 for all IDs)
    MAV_CMD_OVERRIDE_GOTO = 252,  // Override current mission with command to pause mission, pause mission and move to position, continue/resume mission. When param 1 indicates that the mission is paused (MAV_GOTO_DO_HOLD), param 2 defines whether it holds in place or moves to another position. | MAV_GOTO_DO_HOLD: pause mission and either hold or move to specified position (depending on param2), MAV_GOTO_DO_CONTINUE: resume mission. | MAV_GOTO_HOLD_AT_CURRENT_POSITION: hold at current position, MAV_GOTO_HOLD_AT_SPECIFIED_POSITION: hold at specified position. | Coordinate frame of hold point. | Desired yaw angle. | Latitude/X position. | Longitude/Y position. | Altitude/Z position.
    MAV_CMD_OBLIQUE_SURVEY = 260,  // Mission command to set a Camera Auto Mount Pivoting Oblique Survey (Replaces CAM_TRIGG_DIST for this purpose). The camera is triggered each time this distance is exceeded, then the mount moves to the next position. Params 4~6 set-up the angle limits and number of positions for oblique survey, where mount-enabled vehicles automatically roll the camera between shots to emulate an oblique camera setup (providing an increased HFOV). This command can also be used to set the shutter integration time for the camera. | Camera trigger distance. 0 to stop triggering. | Camera shutter integration time. 0 to ignore | The minimum interval in which the camera is capable of taking subsequent pictures repeatedly. 0 to ignore. | Total number of roll positions at which the camera will capture photos (images captures spread evenly across the limits defined by param5). | Angle limits that the camera can be rolled to left and right of center. | Fixed pitch angle that the camera will hold in oblique mode if the mount is actuated in the pitch axis. | Empty
    MAV_CMD_MISSION_START = 300,  // start running a mission | first_item: the first mission item to run | last_item:  the last mission item to run (after this item is run, the mission ends) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_ACTUATOR_TEST = 310,  // Actuator testing command. This is similar to MAV_CMD_DO_MOTOR_TEST but operates on the level of output functions, i.e. it is possible to test Motor1 independent from which output it is configured on. Autopilots typically refuse this command while armed. | Output value: 1 means maximum positive output, 0 to center servos or minimum motor thrust (expected to spin), -1 for maximum negative (if not supported by the motors, i.e. motor is not reversible, smaller than 0 maps to NaN). And NaN maps to disarmed (stop the motors). | Timeout after which the test command expires and the output is restored to the previous value. A timeout has to be set for safety reasons. A timeout of 0 means to restore the previous value immediately. | Reserved (default:0) | Reserved (default:0) | Actuator Output function | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_CONFIGURE_ACTUATOR = 311,  // Actuator configuration command. | Actuator configuration action | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Actuator Output function | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_COMPONENT_ARM_DISARM = 400,  // Arms / Disarms a component | 0: disarm, 1: arm | 0: arm-disarm unless prevented by safety checks (i.e. when landed), 21196: force arming/disarming (e.g. allow arming to override preflight checks and disarming in flight) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_RUN_PREARM_CHECKS = 401,  // Instructs a target system to run pre-arm checks.          This allows preflight checks to be run on demand, which may be useful on systems that normally run them at low rate, or which do not trigger checks when the armable state might have changed.          This command should return MAV_RESULT_ACCEPTED if it will run the checks.          The results of the checks are usually then reported in SYS_STATUS messages (this is system-specific).          The command should return MAV_RESULT_TEMPORARILY_REJECTED if the system is already armed.         | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_ILLUMINATOR_ON_OFF = 405,  // Turns illuminators ON/OFF. An illuminator is a light source that is used for lighting up dark areas external to the system: e.g. a torch or searchlight (as opposed to a light source for illuminating the system itself, e.g. an indicator light). | 0: Illuminators OFF, 1: Illuminators ON | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_DO_ILLUMINATOR_CONFIGURE = 406,  // Configures illuminator settings. An illuminator is a light source that is used for lighting up dark areas external to the system: e.g. a torch or searchlight (as opposed to a light source for illuminating the system itself, e.g. an indicator light). | Mode | 0%: Off, 100%: Max Brightness | Strobe period in seconds where 0 means strobing is not used | Strobe duty cycle where 100% means it is on constantly and 0 means strobing is not used | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_GET_HOME_POSITION = 410,  // Request the home position from the vehicle.	  The vehicle will ACK the command and then emit the HOME_POSITION message. | Reserved | Reserved | Reserved | Reserved | Reserved | Reserved | Reserved
    MAV_CMD_INJECT_FAILURE = 420,  // Inject artificial failure for testing purposes. Note that autopilots should implement an additional protection before accepting this command such as a specific param setting. | The unit which is affected by the failure. | The type how the failure manifests itself. | Instance affected by failure (0 to signal all). | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_START_RX_PAIR = 500,  // Starts receiver pairing. | 0:Spektrum. | RC type. | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_GET_MESSAGE_INTERVAL = 510,  //           Request the interval between messages for a particular MAVLink message ID.          The receiver should ACK the command and then emit its response in a MESSAGE_INTERVAL message.         | The MAVLink message ID | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_SET_MESSAGE_INTERVAL = 511,  // Set the interval between messages for a particular MAVLink message ID. This interface replaces REQUEST_DATA_STREAM. | The MAVLink message ID | The interval between two messages. -1: disable. 0: request default rate (which may be zero). | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Target address of message stream (if message has target address fields). 0: Flight-stack default (recommended), 1: address of requestor, 2: broadcast.
    MAV_CMD_REQUEST_MESSAGE = 512,  // Request the target system(s) emit a single instance of a specified message (i.e. a "one-shot" version of MAV_CMD_SET_MESSAGE_INTERVAL). | The MAVLink message ID of the requested message. | Use for index ID, if required. Otherwise, the use of this parameter (if any) must be defined in the requested message. By default assumed not used (0). | The use of this parameter (if any), must be defined in the requested message. By default assumed not used (0). | The use of this parameter (if any), must be defined in the requested message. By default assumed not used (0). | The use of this parameter (if any), must be defined in the requested message. By default assumed not used (0). | The use of this parameter (if any), must be defined in the requested message. By default assumed not used (0). | Target address for requested message (if message has target address fields). 0: Flight-stack default, 1: address of requestor, 2: broadcast.
    MAV_CMD_REQUEST_PROTOCOL_VERSION = 519,  // Request MAVLink protocol version compatibility. All receivers should ACK the command and then emit their capabilities in an PROTOCOL_VERSION message | 1: Request supported protocol versions by all nodes on the network | Reserved (all remaining params) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_REQUEST_AUTOPILOT_CAPABILITIES = 520,  // Request autopilot capabilities. The receiver should ACK the command and then emit its capabilities in an AUTOPILOT_VERSION message | 1: Request autopilot version | Reserved (all remaining params) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_REQUEST_CAMERA_INFORMATION = 521,  // Request camera information (CAMERA_INFORMATION). | 0: No action 1: Request camera capabilities | Reserved (all remaining params) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_REQUEST_CAMERA_SETTINGS = 522,  // Request camera settings (CAMERA_SETTINGS). | 0: No Action 1: Request camera settings | Reserved (all remaining params) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_REQUEST_STORAGE_INFORMATION = 525,  // Request storage information (STORAGE_INFORMATION). Use the command's target_component to target a specific component's storage. | Storage ID (0 for all, 1 for first, 2 for second, etc.) | 0: No Action 1: Request storage information | Reserved (all remaining params) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_STORAGE_FORMAT = 526,  // Format a storage medium. Once format is complete, a STORAGE_INFORMATION message is sent. Use the command's target_component to target a specific component's storage. | Storage ID (1 for first, 2 for second, etc.) | Format storage (and reset image log). 0: No action 1: Format storage | Reset Image Log (without formatting storage medium). This will reset CAMERA_CAPTURE_STATUS.image_count and CAMERA_IMAGE_CAPTURED.image_index. 0: No action 1: Reset Image Log | Reserved (all remaining params) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_REQUEST_CAMERA_CAPTURE_STATUS = 527,  // Request camera capture status (CAMERA_CAPTURE_STATUS) | 0: No Action 1: Request camera capture status | Reserved (all remaining params) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_REQUEST_FLIGHT_INFORMATION = 528,  // Request flight information (FLIGHT_INFORMATION) | 1: Request flight information | Reserved (all remaining params) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_RESET_CAMERA_SETTINGS = 529,  // Reset all camera settings to Factory Default | 0: No Action 1: Reset all settings | Reserved (all remaining params) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_SET_CAMERA_MODE = 530,  // Set camera running mode. Use NaN for reserved values. GCS will send a MAV_CMD_REQUEST_VIDEO_STREAM_STATUS command after a mode change if the camera supports video streaming. | Reserved (Set to 0) | Camera mode | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:0) | Reserved (default:0) | Reserved (default:NaN)
    MAV_CMD_SET_CAMERA_ZOOM = 531,  // Set camera zoom. Camera must respond with a CAMERA_SETTINGS message (on success). | Zoom type | Zoom value. The range of valid values depend on the zoom type. | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:0) | Reserved (default:0) | Reserved (default:NaN)
    MAV_CMD_SET_CAMERA_FOCUS = 532,  // Set camera focus. Camera must respond with a CAMERA_SETTINGS message (on success). | Focus type | Focus value | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:0) | Reserved (default:0) | Reserved (default:NaN)
    MAV_CMD_SET_STORAGE_USAGE = 533,  // Set that a particular storage is the preferred location for saving photos, videos, and/or other media (e.g. to set that an SD card is used for storing videos).          There can only be one preferred save location for each particular media type: setting a media usage flag will clear/reset that same flag if set on any other storage.          If no flag is set the system should use its default storage.          A target system can choose to always use default storage, in which case it should ACK the command with MAV_RESULT_UNSUPPORTED.          A target system can choose to not allow a particular storage to be set as preferred storage, in which case it should ACK the command with MAV_RESULT_DENIED. | Storage ID (1 for first, 2 for second, etc.) | Usage flags | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_SET_CAMERA_SOURCE = 534,  // Set camera source. Changes the camera's active sources on cameras with multiple image sensors. | Component Id of camera to address or 1-6 for non-MAVLink cameras, 0 for all cameras. | Primary Source | Secondary Source. If non-zero the second source will be displayed as picture-in-picture. | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_JUMP_TAG = 600,  // Tagged jump target. Can be jumped to with MAV_CMD_DO_JUMP_TAG. | Tag. | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_DO_JUMP_TAG = 601,  // Jump to the matching tag in the mission list. Repeat this action for the specified number of times. A mission should contain a single matching tag for each jump. If this is not the case then a jump to a missing tag should complete the mission, and a jump where there are multiple matching tags should always select the one with the lowest mission sequence number. | Target tag to jump to. | Repeat count. | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_DO_GIMBAL_MANAGER_PITCHYAW = 1000,  // Set gimbal manager pitch/yaw setpoints (low rate command). It is possible to set combinations of the values below. E.g. an angle as well as a desired angular rate can be used to get to this angle at a certain angular rate, or an angular rate only will result in continuous turning. NaN is to be used to signal unset. Note: only the gimbal manager will react to this command - it will be ignored by a gimbal device. Use GIMBAL_MANAGER_SET_PITCHYAW if you need to stream pitch/yaw setpoints at higher rate.  | Pitch angle (positive to pitch up, relative to vehicle for FOLLOW mode, relative to world horizon for LOCK mode). | Yaw angle (positive to yaw to the right, relative to vehicle for FOLLOW mode, absolute to North for LOCK mode). | Pitch rate (positive to pitch up). | Yaw rate (positive to yaw to the right). | Gimbal manager flags to use. | Reserved (default:0) | Component ID of gimbal device to address (or 1-6 for non-MAVLink gimbal), 0 for all gimbal device components. Send command multiple times for more than one gimbal (but not all gimbals).
    MAV_CMD_DO_GIMBAL_MANAGER_CONFIGURE = 1001,  // Gimbal configuration to set which sysid/compid is in primary and secondary control. | Sysid for primary control (0: no one in control, -1: leave unchanged, -2: set itself in control (for missions where the own sysid is still unknown), -3: remove control if currently in control). | Compid for primary control (0: no one in control, -1: leave unchanged, -2: set itself in control (for missions where the own sysid is still unknown), -3: remove control if currently in control). | Sysid for secondary control (0: no one in control, -1: leave unchanged, -2: set itself in control (for missions where the own sysid is still unknown), -3: remove control if currently in control). | Compid for secondary control (0: no one in control, -1: leave unchanged, -2: set itself in control (for missions where the own sysid is still unknown), -3: remove control if currently in control). | Reserved (default:0) | Reserved (default:0) | Component ID of gimbal device to address (or 1-6 for non-MAVLink gimbal), 0 for all gimbal device components. Send command multiple times for more than one gimbal (but not all gimbals).
    MAV_CMD_IMAGE_START_CAPTURE = 2000,  // Start image capture sequence. CAMERA_IMAGE_CAPTURED must be emitted after each capture.          Param1 (id) may be used to specify the target camera: 0: all cameras, 1 to 6: autopilot-connected cameras, 7-255: MAVLink camera component ID.          It is needed in order to target specific cameras connected to the autopilot, or specific sensors in a multi-sensor camera (neither of which have a distinct MAVLink component ID).          It is also needed to specify the target camera in missions.          When used in a mission, an autopilot should execute the MAV_CMD for a specified local camera (param1 = 1-6), or resend it as a command if it is intended for a MAVLink camera (param1 = 7 - 255), setting the command's target_component as the param1 value (and setting param1 in the command to zero).          If the param1 is 0 the autopilot should do both.          When sent in a command the target MAVLink address is set using target_component.          If addressed specifically to an autopilot: param1 should be used in the same way as it is for missions (though command should NACK with MAV_RESULT_DENIED if a specified local camera does not exist).          If addressed to a MAVLink camera, param 1 can be used to address all cameras (0), or to separately address 1 to 7 individual sensors. Other values should be NACKed with MAV_RESULT_DENIED.          If the command is broadcast (target_component is 0) then param 1 should be set to 0 (any other value should be NACKED with MAV_RESULT_DENIED). An autopilot would trigger any local cameras and forward the command to all channels.         | Target camera ID. 7 to 255: MAVLink camera component id. 1 to 6 for cameras that don't have a distinct component id (such as autopilot-attached cameras). 0: all cameras. This is used to specifically target autopilot-connected cameras or individual sensors in a multi-sensor MAVLink camera. It is also used to target specific cameras when the MAV_CMD is used in a mission | Desired elapsed time between two consecutive pictures (in seconds). Minimum values depend on hardware (typically greater than 2 seconds). | Total number of images to capture. 0 to capture forever/until MAV_CMD_IMAGE_STOP_CAPTURE. | Capture sequence number starting from 1. This is only valid for single-capture (param3 == 1), otherwise set to 0. Increment the capture ID for each capture command to prevent double captures when a command is re-transmitted. | Reserved (default:0) | Reserved (default:0) | Reserved (default:NaN)
    MAV_CMD_IMAGE_STOP_CAPTURE = 2001,  // Stop image capture sequence.          Param1 (id) may be used to specify the target camera: 0: all cameras, 1 to 6: autopilot-connected cameras, 7-255: MAVLink camera component ID.          It is needed in order to target specific cameras connected to the autopilot, or specific sensors in a multi-sensor camera (neither of which have a distinct MAVLink component ID).          It is also needed to specify the target camera in missions.          When used in a mission, an autopilot should execute the MAV_CMD for a specified local camera (param1 = 1-6), or resend it as a command if it is intended for a MAVLink camera (param1 = 7 - 255), setting the command's target_component as the param1 value (and setting param1 in the command to zero).          If the param1 is 0 the autopilot should do both.          When sent in a command the target MAVLink address is set using target_component.          If addressed specifically to an autopilot: param1 should be used in the same way as it is for missions (though command should NACK with MAV_RESULT_DENIED if a specified local camera does not exist).          If addressed to a MAVLink camera, param1 can be used to address all cameras (0), or to separately address 1 to 7 individual sensors. Other values should be NACKed with MAV_RESULT_DENIED.          If the command is broadcast (target_component is 0) then param 1 should be set to 0 (any other value should be NACKED with MAV_RESULT_DENIED). An autopilot would trigger any local cameras and forward the command to all channels.         | Target camera ID. 7 to 255: MAVLink camera component id. 1 to 6 for cameras that don't have a distinct component id (such as autopilot-attached cameras). 0: all cameras. This is used to specifically target autopilot-connected cameras or individual sensors in a multi-sensor MAVLink camera. It is also used to target specific cameras when the MAV_CMD is used in a mission | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:0) | Reserved (default:0) | Reserved (default:NaN)
    MAV_CMD_REQUEST_CAMERA_IMAGE_CAPTURE = 2002,  // Re-request a CAMERA_IMAGE_CAPTURED message. | Sequence number for missing CAMERA_IMAGE_CAPTURED message | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:0) | Reserved (default:0) | Reserved (default:NaN)
    MAV_CMD_DO_TRIGGER_CONTROL = 2003,  // Enable or disable on-board camera triggering system. | Trigger enable/disable (0 for disable, 1 for start), -1 to ignore | 1 to reset the trigger sequence, -1 or 0 to ignore | 1 to pause triggering, but without switching the camera off or retracting it. -1 to ignore | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_CAMERA_TRACK_POINT = 2004,  // If the camera supports point visual tracking (CAMERA_CAP_FLAGS_HAS_TRACKING_POINT is set), this command allows to initiate the tracking. | Point to track x value (normalized 0..1, 0 is left, 1 is right). | Point to track y value (normalized 0..1, 0 is top, 1 is bottom). | Point radius (normalized 0..1, 0 is one pixel, 1 is full image width). | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_CAMERA_TRACK_RECTANGLE = 2005,  // If the camera supports rectangle visual tracking (CAMERA_CAP_FLAGS_HAS_TRACKING_RECTANGLE is set), this command allows to initiate the tracking. | Top left corner of rectangle x value (normalized 0..1, 0 is left, 1 is right). | Top left corner of rectangle y value (normalized 0..1, 0 is top, 1 is bottom). | Bottom right corner of rectangle x value (normalized 0..1, 0 is left, 1 is right). | Bottom right corner of rectangle y value (normalized 0..1, 0 is top, 1 is bottom). | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_CAMERA_STOP_TRACKING = 2010,  // Stops ongoing tracking. | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_VIDEO_START_CAPTURE = 2500,  // Starts video capture (recording). | Video Stream ID (0 for all streams) | Frequency CAMERA_CAPTURE_STATUS messages should be sent while recording (0 for no messages, otherwise frequency) | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:0) | Reserved (default:0) | Reserved (default:NaN)
    MAV_CMD_VIDEO_STOP_CAPTURE = 2501,  // Stop the current video capture (recording). | Video Stream ID (0 for all streams) | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:0) | Reserved (default:0) | Reserved (default:NaN)
    MAV_CMD_VIDEO_START_STREAMING = 2502,  // Start video streaming | Video Stream ID (0 for all streams, 1 for first, 2 for second, etc.) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_VIDEO_STOP_STREAMING = 2503,  // Stop the given video stream | Video Stream ID (0 for all streams, 1 for first, 2 for second, etc.) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_REQUEST_VIDEO_STREAM_INFORMATION = 2504,  // Request video stream information (VIDEO_STREAM_INFORMATION) | Video Stream ID (0 for all streams, 1 for first, 2 for second, etc.) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_REQUEST_VIDEO_STREAM_STATUS = 2505,  // Request video stream status (VIDEO_STREAM_STATUS) | Video Stream ID (0 for all streams, 1 for first, 2 for second, etc.) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_LOGGING_START = 2510,  // Request to start streaming logging data over MAVLink (see also LOGGING_DATA message) | Format: 0: ULog | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0)
    MAV_CMD_LOGGING_STOP = 2511,  // Request to stop streaming log data over MAVLink | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0)
    MAV_CMD_AIRFRAME_CONFIGURATION = 2520,  //  | Landing gear ID (default: 0, -1 for all) | Landing gear position (Down: 0, Up: 1, NaN for no change) | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:0) | Reserved (default:0) | Reserved (default:NaN)
    MAV_CMD_CONTROL_HIGH_LATENCY = 2600,  // Request to start/stop transmitting over the high latency telemetry | Control transmission over high latency telemetry (0: stop, 1: start) | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_PANORAMA_CREATE = 2800,  // Create a panorama at the current position | Viewing angle horizontal of the panorama (+- 0.5 the total angle) | Viewing angle vertical of panorama. | Speed of the horizontal rotation. | Speed of the vertical rotation. | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_DO_VTOL_TRANSITION = 3000,  // Request VTOL transition | The target VTOL state. For normal transitions, only MAV_VTOL_STATE_MC and MAV_VTOL_STATE_FW can be used. | Force immediate transition to the specified MAV_VTOL_STATE. 1: Force immediate, 0: normal transition. Can be used, for example, to trigger an emergency "Quadchute". Caution: Can be dangerous/damage vehicle, depending on autopilot implementation of this command. | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_ARM_AUTHORIZATION_REQUEST = 3001,  // Request authorization to arm the vehicle to a external entity, the arm authorizer is responsible to request all data that is needs from the vehicle before authorize or deny the request.		If approved the COMMAND_ACK message progress field should be set with period of time that this authorization is valid in seconds.		If the authorization is denied COMMAND_ACK.result_param2 should be set with one of the reasons in ARM_AUTH_DENIED_REASON.         | Vehicle system id, this way ground station can request arm authorization on behalf of any vehicle | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_SET_GUIDED_SUBMODE_STANDARD = 4000,  // This command sets the submode to standard guided when vehicle is in guided mode. The vehicle holds position and altitude and the user can input the desired velocities along all three axes.                   | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_SET_GUIDED_SUBMODE_CIRCLE = 4001,  // This command sets submode circle when vehicle is in guided mode. Vehicle flies along a circle facing the center of the circle. The user can input the velocity along the circle and change the radius. If no input is given the vehicle will hold position.                   | Radius of desired circle in CIRCLE_MODE | User defined | User defined | User defined | Target latitude of center of circle in CIRCLE_MODE | Target longitude of center of circle in CIRCLE_MODE | Reserved (default:0)
    MAV_CMD_CONDITION_GATE = 4501,  // Delay mission state machine until gate has been reached. | Geometry: 0: orthogonal to path between previous and next waypoint. | Altitude: 0: ignore altitude | Empty | Empty | Latitude | Longitude | Altitude
    MAV_CMD_NAV_FENCE_RETURN_POINT = 5000,  // Fence return point (there can only be one such point in a geofence definition). If rally points are supported they should be used instead. | Reserved | Reserved | Reserved | Reserved | Latitude | Longitude | Altitude
    MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION = 5001,  // Fence vertex for an inclusion polygon (the polygon must not be self-intersecting). The vehicle must stay within this area. Minimum of 3 vertices required.         | Polygon vertex count | Vehicle must be inside ALL inclusion zones in a single group, vehicle must be inside at least one group, must be the same for all points in each polygon | Reserved | Reserved | Latitude | Longitude | Reserved
    MAV_CMD_NAV_FENCE_POLYGON_VERTEX_EXCLUSION = 5002,  // Fence vertex for an exclusion polygon (the polygon must not be self-intersecting). The vehicle must stay outside this area. Minimum of 3 vertices required.         | Polygon vertex count | Reserved | Reserved | Reserved | Latitude | Longitude | Reserved
    MAV_CMD_NAV_FENCE_CIRCLE_INCLUSION = 5003,  // Circular fence area. The vehicle must stay inside this area.         | Radius. | Vehicle must be inside ALL inclusion zones in a single group, vehicle must be inside at least one group | Reserved | Reserved | Latitude | Longitude | Reserved
    MAV_CMD_NAV_FENCE_CIRCLE_EXCLUSION = 5004,  // Circular fence area. The vehicle must stay outside this area.         | Radius. | Reserved | Reserved | Reserved | Latitude | Longitude | Reserved
    MAV_CMD_NAV_RALLY_POINT = 5100,  // Rally point. You can have multiple rally points defined.         | Reserved | Reserved | Reserved | Reserved | Latitude | Longitude | Altitude
    MAV_CMD_UAVCAN_GET_NODE_INFO = 5200,  // Commands the vehicle to respond with a sequence of messages UAVCAN_NODE_INFO, one message per every UAVCAN node that is online. Note that some of the response messages can be lost, which the receiver can detect easily by checking whether every received UAVCAN_NODE_STATUS has a matching message UAVCAN_NODE_INFO received earlier; if not, this command should be sent again in order to request re-transmission of the node information messages. | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0)
    MAV_CMD_DO_SET_SAFETY_SWITCH_STATE = 5300,  // Change state of safety switch. | New safety switch state. | Empty. | Empty. | Empty | Empty. | Empty. | Empty.
    MAV_CMD_DO_ADSB_OUT_IDENT = 10001,  // Trigger the start of an ADSB-out IDENT. This should only be used when requested to do so by an Air Traffic Controller in controlled airspace. This starts the IDENT which is then typically held for 18 seconds by the hardware per the Mode A, C, and S transponder spec. | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0)
    MAV_CMD_PAYLOAD_PREPARE_DEPLOY = 30001,  // Deploy payload on a Lat / Lon / Alt position. This includes the navigation to reach the required release position and velocity. | Operation mode. 0: prepare single payload deploy (overwriting previous requests), but do not execute it. 1: execute payload deploy immediately (rejecting further deploy commands during execution, but allowing abort). 2: add payload deploy to existing deployment list. | Desired approach vector in compass heading. A negative value indicates the system can define the approach vector at will. | Desired ground speed at release time. This can be overridden by the airframe in case it needs to meet minimum airspeed. A negative value indicates the system can define the ground speed at will. | Minimum altitude clearance to the release position. A negative value indicates the system can define the clearance at will. | Latitude. | Longitude. | Altitude (MSL)
    MAV_CMD_PAYLOAD_CONTROL_DEPLOY = 30002,  // Control the payload deployment. | Operation mode. 0: Abort deployment, continue normal mission. 1: switch to payload deployment mode. 100: delete first payload deployment request. 101: delete all payload deployment requests. | Reserved | Reserved | Reserved | Reserved | Reserved | Reserved
    MAV_CMD_WAYPOINT_USER_1 = 31000,  // User defined waypoint item. Ground Station will show the Vehicle as flying through this item. | User defined | User defined | User defined | User defined | Latitude unscaled | Longitude unscaled | Altitude (MSL)
    MAV_CMD_WAYPOINT_USER_2 = 31001,  // User defined waypoint item. Ground Station will show the Vehicle as flying through this item. | User defined | User defined | User defined | User defined | Latitude unscaled | Longitude unscaled | Altitude (MSL)
    MAV_CMD_WAYPOINT_USER_3 = 31002,  // User defined waypoint item. Ground Station will show the Vehicle as flying through this item. | User defined | User defined | User defined | User defined | Latitude unscaled | Longitude unscaled | Altitude (MSL)
    MAV_CMD_WAYPOINT_USER_4 = 31003,  // User defined waypoint item. Ground Station will show the Vehicle as flying through this item. | User defined | User defined | User defined | User defined | Latitude unscaled | Longitude unscaled | Altitude (MSL)
    MAV_CMD_WAYPOINT_USER_5 = 31004,  // User defined waypoint item. Ground Station will show the Vehicle as flying through this item. | User defined | User defined | User defined | User defined | Latitude unscaled | Longitude unscaled | Altitude (MSL)
    MAV_CMD_SPATIAL_USER_1 = 31005,  // User defined spatial item. Ground Station will not show the Vehicle as flying through this item. Example: ROI item. | User defined | User defined | User defined | User defined | Latitude unscaled | Longitude unscaled | Altitude (MSL)
    MAV_CMD_SPATIAL_USER_2 = 31006,  // User defined spatial item. Ground Station will not show the Vehicle as flying through this item. Example: ROI item. | User defined | User defined | User defined | User defined | Latitude unscaled | Longitude unscaled | Altitude (MSL)
    MAV_CMD_SPATIAL_USER_3 = 31007,  // User defined spatial item. Ground Station will not show the Vehicle as flying through this item. Example: ROI item. | User defined | User defined | User defined | User defined | Latitude unscaled | Longitude unscaled | Altitude (MSL)
    MAV_CMD_SPATIAL_USER_4 = 31008,  // User defined spatial item. Ground Station will not show the Vehicle as flying through this item. Example: ROI item. | User defined | User defined | User defined | User defined | Latitude unscaled | Longitude unscaled | Altitude (MSL)
    MAV_CMD_SPATIAL_USER_5 = 31009,  // User defined spatial item. Ground Station will not show the Vehicle as flying through this item. Example: ROI item. | User defined | User defined | User defined | User defined | Latitude unscaled | Longitude unscaled | Altitude (MSL)
    MAV_CMD_USER_1 = 31010,  // User defined command. Ground Station will not show the Vehicle as flying through this item. Example: MAV_CMD_DO_SET_PARAMETER item. | User defined | User defined | User defined | User defined | User defined | User defined | User defined
    MAV_CMD_USER_2 = 31011,  // User defined command. Ground Station will not show the Vehicle as flying through this item. Example: MAV_CMD_DO_SET_PARAMETER item. | User defined | User defined | User defined | User defined | User defined | User defined | User defined
    MAV_CMD_USER_3 = 31012,  // User defined command. Ground Station will not show the Vehicle as flying through this item. Example: MAV_CMD_DO_SET_PARAMETER item. | User defined | User defined | User defined | User defined | User defined | User defined | User defined
    MAV_CMD_USER_4 = 31013,  // User defined command. Ground Station will not show the Vehicle as flying through this item. Example: MAV_CMD_DO_SET_PARAMETER item. | User defined | User defined | User defined | User defined | User defined | User defined | User defined
    MAV_CMD_USER_5 = 31014,  // User defined command. Ground Station will not show the Vehicle as flying through this item. Example: MAV_CMD_DO_SET_PARAMETER item. | User defined | User defined | User defined | User defined | User defined | User defined | User defined
    MAV_CMD_CAN_FORWARD = 32000,  // Request forwarding of CAN packets from the given CAN bus to this component. CAN Frames are sent using CAN_FRAME and CANFD_FRAME messages | Bus number (0 to disable forwarding, 1 for first bus, 2 for 2nd bus, 3 for 3rd bus). | Empty. | Empty. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_FIXED_MAG_CAL_YAW = 42006,  // Magnetometer calibration based on provided known yaw. This allows for fast calibration using WMM field tables in the vehicle, given only the known yaw of the vehicle. If Latitude and longitude are both zero then use the current vehicle location. | Yaw of vehicle in earth frame. | CompassMask, 0 for all. | Latitude. | Longitude. | Empty. | Empty. | Empty.
    MAV_CMD_DO_WINCH = 42600,  // Command to operate winch. | Winch instance number. | Action to perform. | Length of line to release (negative to wind). | Release rate (negative to wind). | Empty. | Empty. | Empty.
    MAV_CMD_EXTERNAL_POSITION_ESTIMATE = 43003,  // Provide an external position estimate for use when dead-reckoning. This is meant to be used for occasional position resets that may be provided by a external system such as a remote pilot using landmarks over a video link. | Timestamp that this message was sent as a time in the transmitters time domain. The sender should wrap this time back to zero based on required timing accuracy for the application and the limitations of a 32 bit float. For example, wrapping at 10 hours would give approximately 1ms accuracy. Recipient must handle time wrap in any timing jitter correction applied to this field. Wrap rollover time should not be at not more than 250 seconds, which would give approximately 10 microsecond accuracy. | The time spent in processing the sensor data that is the basis for this position. The recipient can use this to improve time alignment of the data. Set to zero if not known. | estimated one standard deviation accuracy of the measurement. Set to NaN if not known. | Empty | Latitude | Longitude | Altitude, not used. Should be sent as NaN. May be supported in a future version of this message.
    MAV_CMD_ENUM_END = 43004,  // end marker
} MAV_CMD;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_DATA_STREAM
#define FASTMAVLINK_HAS_ENUM_MAV_DATA_STREAM
typedef enum MAV_DATA_STREAM {
    MAV_DATA_STREAM_ALL = 0,  // Enable all data streams 
    MAV_DATA_STREAM_RAW_SENSORS = 1,  // Enable IMU_RAW, GPS_RAW, GPS_STATUS packets. 
    MAV_DATA_STREAM_EXTENDED_STATUS = 2,  // Enable GPS_STATUS, CONTROL_STATUS, AUX_STATUS 
    MAV_DATA_STREAM_RC_CHANNELS = 3,  // Enable RC_CHANNELS_SCALED, RC_CHANNELS_RAW, SERVO_OUTPUT_RAW 
    MAV_DATA_STREAM_RAW_CONTROLLER = 4,  // Enable ATTITUDE_CONTROLLER_OUTPUT, POSITION_CONTROLLER_OUTPUT, NAV_CONTROLLER_OUTPUT. 
    MAV_DATA_STREAM_POSITION = 6,  // Enable LOCAL_POSITION, GLOBAL_POSITION_INT messages. 
    MAV_DATA_STREAM_EXTRA1 = 10,  // Dependent on the autopilot 
    MAV_DATA_STREAM_EXTRA2 = 11,  // Dependent on the autopilot 
    MAV_DATA_STREAM_EXTRA3 = 12,  // Dependent on the autopilot 
    MAV_DATA_STREAM_ENUM_END = 13,  // end marker
} MAV_DATA_STREAM;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_ROI
#define FASTMAVLINK_HAS_ENUM_MAV_ROI
typedef enum MAV_ROI {
    MAV_ROI_NONE = 0,  // No region of interest. 
    MAV_ROI_WPNEXT = 1,  // Point toward next waypoint, with optional pitch/roll/yaw offset. 
    MAV_ROI_WPINDEX = 2,  // Point toward given waypoint. 
    MAV_ROI_LOCATION = 3,  // Point toward fixed location. 
    MAV_ROI_TARGET = 4,  // Point toward of given id. 
    MAV_ROI_ENUM_END = 5,  // end marker
} MAV_ROI;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_PARAM_TYPE
#define FASTMAVLINK_HAS_ENUM_MAV_PARAM_TYPE
typedef enum MAV_PARAM_TYPE {
    MAV_PARAM_TYPE_UINT8 = 1,  // 8-bit unsigned integer 
    MAV_PARAM_TYPE_INT8 = 2,  // 8-bit signed integer 
    MAV_PARAM_TYPE_UINT16 = 3,  // 16-bit unsigned integer 
    MAV_PARAM_TYPE_INT16 = 4,  // 16-bit signed integer 
    MAV_PARAM_TYPE_UINT32 = 5,  // 32-bit unsigned integer 
    MAV_PARAM_TYPE_INT32 = 6,  // 32-bit signed integer 
    MAV_PARAM_TYPE_UINT64 = 7,  // 64-bit unsigned integer 
    MAV_PARAM_TYPE_INT64 = 8,  // 64-bit signed integer 
    MAV_PARAM_TYPE_REAL32 = 9,  // 32-bit floating-point 
    MAV_PARAM_TYPE_REAL64 = 10,  // 64-bit floating-point 
    MAV_PARAM_TYPE_ENUM_END = 11,  // end marker
} MAV_PARAM_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_PARAM_EXT_TYPE
#define FASTMAVLINK_HAS_ENUM_MAV_PARAM_EXT_TYPE
typedef enum MAV_PARAM_EXT_TYPE {
    MAV_PARAM_EXT_TYPE_UINT8 = 1,  // 8-bit unsigned integer 
    MAV_PARAM_EXT_TYPE_INT8 = 2,  // 8-bit signed integer 
    MAV_PARAM_EXT_TYPE_UINT16 = 3,  // 16-bit unsigned integer 
    MAV_PARAM_EXT_TYPE_INT16 = 4,  // 16-bit signed integer 
    MAV_PARAM_EXT_TYPE_UINT32 = 5,  // 32-bit unsigned integer 
    MAV_PARAM_EXT_TYPE_INT32 = 6,  // 32-bit signed integer 
    MAV_PARAM_EXT_TYPE_UINT64 = 7,  // 64-bit unsigned integer 
    MAV_PARAM_EXT_TYPE_INT64 = 8,  // 64-bit signed integer 
    MAV_PARAM_EXT_TYPE_REAL32 = 9,  // 32-bit floating-point 
    MAV_PARAM_EXT_TYPE_REAL64 = 10,  // 64-bit floating-point 
    MAV_PARAM_EXT_TYPE_CUSTOM = 11,  // Custom Type 
    MAV_PARAM_EXT_TYPE_ENUM_END = 12,  // end marker
} MAV_PARAM_EXT_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_RESULT
#define FASTMAVLINK_HAS_ENUM_MAV_RESULT
typedef enum MAV_RESULT {
    MAV_RESULT_ACCEPTED = 0,  // Command is valid (is supported and has valid parameters), and was executed. 
    MAV_RESULT_TEMPORARILY_REJECTED = 1,  // Command is valid, but cannot be executed at this time. This is used to indicate a problem that should be fixed just by waiting (e.g. a state machine is busy, can't arm because have not got GPS lock, etc.). Retrying later should work. 
    MAV_RESULT_DENIED = 2,  // Command is invalid (is supported but has invalid parameters). Retrying same command and parameters will not work. 
    MAV_RESULT_UNSUPPORTED = 3,  // Command is not supported (unknown). 
    MAV_RESULT_FAILED = 4,  // Command is valid, but execution has failed. This is used to indicate any non-temporary or unexpected problem, i.e. any problem that must be fixed before the command can succeed/be retried. For example, attempting to write a file when out of memory, attempting to arm when sensors are not calibrated, etc. 
    MAV_RESULT_IN_PROGRESS = 5,  // Command is valid and is being executed. This will be followed by further progress updates, i.e. the component may send further COMMAND_ACK messages with result MAV_RESULT_IN_PROGRESS (at a rate decided by the implementation), and must terminate by sending a COMMAND_ACK message with final result of the operation. The COMMAND_ACK.progress field can be used to indicate the progress of the operation. 
    MAV_RESULT_CANCELLED = 6,  // Command has been cancelled (as a result of receiving a COMMAND_CANCEL message). 
    MAV_RESULT_COMMAND_LONG_ONLY = 7,  // Command is only accepted when sent as a COMMAND_LONG. 
    MAV_RESULT_COMMAND_INT_ONLY = 8,  // Command is only accepted when sent as a COMMAND_INT. 
    MAV_RESULT_COMMAND_UNSUPPORTED_MAV_FRAME = 9,  // Command is invalid because a frame is required and the specified frame is not supported. 
    MAV_RESULT_ENUM_END = 10,  // end marker
} MAV_RESULT;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_MISSION_RESULT
#define FASTMAVLINK_HAS_ENUM_MAV_MISSION_RESULT
typedef enum MAV_MISSION_RESULT {
    MAV_MISSION_ACCEPTED = 0,  // mission accepted OK 
    MAV_MISSION_ERROR = 1,  // Generic error / not accepting mission commands at all right now. 
    MAV_MISSION_UNSUPPORTED_FRAME = 2,  // Coordinate frame is not supported. 
    MAV_MISSION_UNSUPPORTED = 3,  // Command is not supported. 
    MAV_MISSION_NO_SPACE = 4,  // Mission items exceed storage space. 
    MAV_MISSION_INVALID = 5,  // One of the parameters has an invalid value. 
    MAV_MISSION_INVALID_PARAM1 = 6,  // param1 has an invalid value. 
    MAV_MISSION_INVALID_PARAM2 = 7,  // param2 has an invalid value. 
    MAV_MISSION_INVALID_PARAM3 = 8,  // param3 has an invalid value. 
    MAV_MISSION_INVALID_PARAM4 = 9,  // param4 has an invalid value. 
    MAV_MISSION_INVALID_PARAM5_X = 10,  // x / param5 has an invalid value. 
    MAV_MISSION_INVALID_PARAM6_Y = 11,  // y / param6 has an invalid value. 
    MAV_MISSION_INVALID_PARAM7 = 12,  // z / param7 has an invalid value. 
    MAV_MISSION_INVALID_SEQUENCE = 13,  // Mission item received out of sequence 
    MAV_MISSION_DENIED = 14,  // Not accepting any mission commands from this communication partner. 
    MAV_MISSION_OPERATION_CANCELLED = 15,  // Current mission operation cancelled (e.g. mission upload, mission download). 
    MAV_MISSION_RESULT_ENUM_END = 16,  // end marker
} MAV_MISSION_RESULT;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_SEVERITY
#define FASTMAVLINK_HAS_ENUM_MAV_SEVERITY
typedef enum MAV_SEVERITY {
    MAV_SEVERITY_EMERGENCY = 0,  // System is unusable. This is a "panic" condition. 
    MAV_SEVERITY_ALERT = 1,  // Action should be taken immediately. Indicates error in non-critical systems. 
    MAV_SEVERITY_CRITICAL = 2,  // Action must be taken immediately. Indicates failure in a primary system. 
    MAV_SEVERITY_ERROR = 3,  // Indicates an error in secondary/redundant systems. 
    MAV_SEVERITY_WARNING = 4,  // Indicates about a possible future error if this is not resolved within a given timeframe. Example would be a low battery warning. 
    MAV_SEVERITY_NOTICE = 5,  // An unusual event has occurred, though not an error condition. This should be investigated for the root cause. 
    MAV_SEVERITY_INFO = 6,  // Normal operational messages. Useful for logging. No action is required for these messages. 
    MAV_SEVERITY_DEBUG = 7,  // Useful non-operational messages that can assist in debugging. These should not occur during normal operation. 
    MAV_SEVERITY_ENUM_END = 8,  // end marker
} MAV_SEVERITY;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_POWER_STATUS
#define FASTMAVLINK_HAS_ENUM_MAV_POWER_STATUS
typedef enum MAV_POWER_STATUS {
    MAV_POWER_STATUS_BRICK_VALID = 1,  // main brick power supply valid 
    MAV_POWER_STATUS_SERVO_VALID = 2,  // main servo power supply valid for FMU 
    MAV_POWER_STATUS_USB_CONNECTED = 4,  // USB power is connected 
    MAV_POWER_STATUS_PERIPH_OVERCURRENT = 8,  // peripheral supply is in over-current state 
    MAV_POWER_STATUS_PERIPH_HIPOWER_OVERCURRENT = 16,  // hi-power peripheral supply is in over-current state 
    MAV_POWER_STATUS_CHANGED = 32,  // Power status has changed since boot 
    MAV_POWER_STATUS_ENUM_END = 33,  // end marker
} MAV_POWER_STATUS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_SERIAL_CONTROL_DEV
#define FASTMAVLINK_HAS_ENUM_SERIAL_CONTROL_DEV
typedef enum SERIAL_CONTROL_DEV {
    SERIAL_CONTROL_DEV_TELEM1 = 0,  // First telemetry port 
    SERIAL_CONTROL_DEV_TELEM2 = 1,  // Second telemetry port 
    SERIAL_CONTROL_DEV_GPS1 = 2,  // First GPS port 
    SERIAL_CONTROL_DEV_GPS2 = 3,  // Second GPS port 
    SERIAL_CONTROL_DEV_SHELL = 10,  // system shell 
    SERIAL_CONTROL_SERIAL0 = 100,  // SERIAL0 
    SERIAL_CONTROL_SERIAL1 = 101,  // SERIAL1 
    SERIAL_CONTROL_SERIAL2 = 102,  // SERIAL2 
    SERIAL_CONTROL_SERIAL3 = 103,  // SERIAL3 
    SERIAL_CONTROL_SERIAL4 = 104,  // SERIAL4 
    SERIAL_CONTROL_SERIAL5 = 105,  // SERIAL5 
    SERIAL_CONTROL_SERIAL6 = 106,  // SERIAL6 
    SERIAL_CONTROL_SERIAL7 = 107,  // SERIAL7 
    SERIAL_CONTROL_SERIAL8 = 108,  // SERIAL8 
    SERIAL_CONTROL_SERIAL9 = 109,  // SERIAL9 
    SERIAL_CONTROL_DEV_ENUM_END = 110,  // end marker
} SERIAL_CONTROL_DEV;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_SERIAL_CONTROL_FLAG
#define FASTMAVLINK_HAS_ENUM_SERIAL_CONTROL_FLAG
typedef enum SERIAL_CONTROL_FLAG {
    SERIAL_CONTROL_FLAG_REPLY = 1,  // Set if this is a reply 
    SERIAL_CONTROL_FLAG_RESPOND = 2,  // Set if the sender wants the receiver to send a response as another SERIAL_CONTROL message 
    SERIAL_CONTROL_FLAG_EXCLUSIVE = 4,  // Set if access to the serial port should be removed from whatever driver is currently using it, giving exclusive access to the SERIAL_CONTROL protocol. The port can be handed back by sending a request without this flag set 
    SERIAL_CONTROL_FLAG_BLOCKING = 8,  // Block on writes to the serial port 
    SERIAL_CONTROL_FLAG_MULTI = 16,  // Send multiple replies until port is drained 
    SERIAL_CONTROL_FLAG_ENUM_END = 17,  // end marker
} SERIAL_CONTROL_FLAG;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_DISTANCE_SENSOR
#define FASTMAVLINK_HAS_ENUM_MAV_DISTANCE_SENSOR
typedef enum MAV_DISTANCE_SENSOR {
    MAV_DISTANCE_SENSOR_LASER = 0,  // Laser rangefinder, e.g. LightWare SF02/F or PulsedLight units 
    MAV_DISTANCE_SENSOR_ULTRASOUND = 1,  // Ultrasound rangefinder, e.g. MaxBotix units 
    MAV_DISTANCE_SENSOR_INFRARED = 2,  // Infrared rangefinder, e.g. Sharp units 
    MAV_DISTANCE_SENSOR_RADAR = 3,  // Radar type, e.g. uLanding units 
    MAV_DISTANCE_SENSOR_UNKNOWN = 4,  // Broken or unknown type, e.g. analog units 
    MAV_DISTANCE_SENSOR_ENUM_END = 5,  // end marker
} MAV_DISTANCE_SENSOR;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_SENSOR_ORIENTATION
#define FASTMAVLINK_HAS_ENUM_MAV_SENSOR_ORIENTATION
typedef enum MAV_SENSOR_ORIENTATION {
    MAV_SENSOR_ROTATION_NONE = 0,  // Roll: 0, Pitch: 0, Yaw: 0 
    MAV_SENSOR_ROTATION_YAW_45 = 1,  // Roll: 0, Pitch: 0, Yaw: 45 
    MAV_SENSOR_ROTATION_YAW_90 = 2,  // Roll: 0, Pitch: 0, Yaw: 90 
    MAV_SENSOR_ROTATION_YAW_135 = 3,  // Roll: 0, Pitch: 0, Yaw: 135 
    MAV_SENSOR_ROTATION_YAW_180 = 4,  // Roll: 0, Pitch: 0, Yaw: 180 
    MAV_SENSOR_ROTATION_YAW_225 = 5,  // Roll: 0, Pitch: 0, Yaw: 225 
    MAV_SENSOR_ROTATION_YAW_270 = 6,  // Roll: 0, Pitch: 0, Yaw: 270 
    MAV_SENSOR_ROTATION_YAW_315 = 7,  // Roll: 0, Pitch: 0, Yaw: 315 
    MAV_SENSOR_ROTATION_ROLL_180 = 8,  // Roll: 180, Pitch: 0, Yaw: 0 
    MAV_SENSOR_ROTATION_ROLL_180_YAW_45 = 9,  // Roll: 180, Pitch: 0, Yaw: 45 
    MAV_SENSOR_ROTATION_ROLL_180_YAW_90 = 10,  // Roll: 180, Pitch: 0, Yaw: 90 
    MAV_SENSOR_ROTATION_ROLL_180_YAW_135 = 11,  // Roll: 180, Pitch: 0, Yaw: 135 
    MAV_SENSOR_ROTATION_PITCH_180 = 12,  // Roll: 0, Pitch: 180, Yaw: 0 
    MAV_SENSOR_ROTATION_ROLL_180_YAW_225 = 13,  // Roll: 180, Pitch: 0, Yaw: 225 
    MAV_SENSOR_ROTATION_ROLL_180_YAW_270 = 14,  // Roll: 180, Pitch: 0, Yaw: 270 
    MAV_SENSOR_ROTATION_ROLL_180_YAW_315 = 15,  // Roll: 180, Pitch: 0, Yaw: 315 
    MAV_SENSOR_ROTATION_ROLL_90 = 16,  // Roll: 90, Pitch: 0, Yaw: 0 
    MAV_SENSOR_ROTATION_ROLL_90_YAW_45 = 17,  // Roll: 90, Pitch: 0, Yaw: 45 
    MAV_SENSOR_ROTATION_ROLL_90_YAW_90 = 18,  // Roll: 90, Pitch: 0, Yaw: 90 
    MAV_SENSOR_ROTATION_ROLL_90_YAW_135 = 19,  // Roll: 90, Pitch: 0, Yaw: 135 
    MAV_SENSOR_ROTATION_ROLL_270 = 20,  // Roll: 270, Pitch: 0, Yaw: 0 
    MAV_SENSOR_ROTATION_ROLL_270_YAW_45 = 21,  // Roll: 270, Pitch: 0, Yaw: 45 
    MAV_SENSOR_ROTATION_ROLL_270_YAW_90 = 22,  // Roll: 270, Pitch: 0, Yaw: 90 
    MAV_SENSOR_ROTATION_ROLL_270_YAW_135 = 23,  // Roll: 270, Pitch: 0, Yaw: 135 
    MAV_SENSOR_ROTATION_PITCH_90 = 24,  // Roll: 0, Pitch: 90, Yaw: 0 
    MAV_SENSOR_ROTATION_PITCH_270 = 25,  // Roll: 0, Pitch: 270, Yaw: 0 
    MAV_SENSOR_ROTATION_PITCH_180_YAW_90 = 26,  // Roll: 0, Pitch: 180, Yaw: 90 
    MAV_SENSOR_ROTATION_PITCH_180_YAW_270 = 27,  // Roll: 0, Pitch: 180, Yaw: 270 
    MAV_SENSOR_ROTATION_ROLL_90_PITCH_90 = 28,  // Roll: 90, Pitch: 90, Yaw: 0 
    MAV_SENSOR_ROTATION_ROLL_180_PITCH_90 = 29,  // Roll: 180, Pitch: 90, Yaw: 0 
    MAV_SENSOR_ROTATION_ROLL_270_PITCH_90 = 30,  // Roll: 270, Pitch: 90, Yaw: 0 
    MAV_SENSOR_ROTATION_ROLL_90_PITCH_180 = 31,  // Roll: 90, Pitch: 180, Yaw: 0 
    MAV_SENSOR_ROTATION_ROLL_270_PITCH_180 = 32,  // Roll: 270, Pitch: 180, Yaw: 0 
    MAV_SENSOR_ROTATION_ROLL_90_PITCH_270 = 33,  // Roll: 90, Pitch: 270, Yaw: 0 
    MAV_SENSOR_ROTATION_ROLL_180_PITCH_270 = 34,  // Roll: 180, Pitch: 270, Yaw: 0 
    MAV_SENSOR_ROTATION_ROLL_270_PITCH_270 = 35,  // Roll: 270, Pitch: 270, Yaw: 0 
    MAV_SENSOR_ROTATION_ROLL_90_PITCH_180_YAW_90 = 36,  // Roll: 90, Pitch: 180, Yaw: 90 
    MAV_SENSOR_ROTATION_ROLL_90_YAW_270 = 37,  // Roll: 90, Pitch: 0, Yaw: 270 
    MAV_SENSOR_ROTATION_ROLL_90_PITCH_68_YAW_293 = 38,  // Roll: 90, Pitch: 68, Yaw: 293 
    MAV_SENSOR_ROTATION_PITCH_315 = 39,  // Pitch: 315 
    MAV_SENSOR_ROTATION_ROLL_90_PITCH_315 = 40,  // Roll: 90, Pitch: 315 
    MAV_SENSOR_ROTATION_CUSTOM = 100,  // Custom orientation 
    MAV_SENSOR_ORIENTATION_ENUM_END = 101,  // end marker
} MAV_SENSOR_ORIENTATION;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_PROTOCOL_CAPABILITY
#define FASTMAVLINK_HAS_ENUM_MAV_PROTOCOL_CAPABILITY
typedef enum MAV_PROTOCOL_CAPABILITY {
    MAV_PROTOCOL_CAPABILITY_MISSION_FLOAT = 1,  // Autopilot supports the MISSION_ITEM float message type.          Note that MISSION_ITEM is deprecated, and autopilots should use MISSION_INT instead.         
    MAV_PROTOCOL_CAPABILITY_PARAM_FLOAT = 2,  // Autopilot supports the new param float message type. 
    MAV_PROTOCOL_CAPABILITY_MISSION_INT = 4,  // Autopilot supports MISSION_ITEM_INT scaled integer message type.          Note that this flag must always be set if missions are supported, because missions must always use MISSION_ITEM_INT (rather than MISSION_ITEM, which is deprecated).         
    MAV_PROTOCOL_CAPABILITY_COMMAND_INT = 8,  // Autopilot supports COMMAND_INT scaled integer message type. 
    MAV_PROTOCOL_CAPABILITY_PARAM_ENCODE_BYTEWISE = 16,  // Parameter protocol uses byte-wise encoding of parameter values into param_value (float) fields: https://mavlink.io/en/services/parameter.html#parameter-encoding.          Note that either this flag or MAV_PROTOCOL_CAPABILITY_PARAM_ENCODE_C_CAST should be set if the parameter protocol is supported.         
    MAV_PROTOCOL_CAPABILITY_FTP = 32,  // Autopilot supports the File Transfer Protocol v1: https://mavlink.io/en/services/ftp.html. 
    MAV_PROTOCOL_CAPABILITY_SET_ATTITUDE_TARGET = 64,  // Autopilot supports commanding attitude offboard. 
    MAV_PROTOCOL_CAPABILITY_SET_POSITION_TARGET_LOCAL_NED = 128,  // Autopilot supports commanding position and velocity targets in local NED frame. 
    MAV_PROTOCOL_CAPABILITY_SET_POSITION_TARGET_GLOBAL_INT = 256,  // Autopilot supports commanding position and velocity targets in global scaled integers. 
    MAV_PROTOCOL_CAPABILITY_TERRAIN = 512,  // Autopilot supports terrain protocol / data handling. 
    MAV_PROTOCOL_CAPABILITY_RESERVED3 = 1024,  // Reserved for future use. 
    MAV_PROTOCOL_CAPABILITY_FLIGHT_TERMINATION = 2048,  // Autopilot supports the MAV_CMD_DO_FLIGHTTERMINATION command (flight termination). 
    MAV_PROTOCOL_CAPABILITY_COMPASS_CALIBRATION = 4096,  // Autopilot supports onboard compass calibration. 
    MAV_PROTOCOL_CAPABILITY_MAVLINK2 = 8192,  // Autopilot supports MAVLink version 2. 
    MAV_PROTOCOL_CAPABILITY_MISSION_FENCE = 16384,  // Autopilot supports mission fence protocol. 
    MAV_PROTOCOL_CAPABILITY_MISSION_RALLY = 32768,  // Autopilot supports mission rally point protocol. 
    MAV_PROTOCOL_CAPABILITY_RESERVED2 = 65536,  // Reserved for future use. 
    MAV_PROTOCOL_CAPABILITY_PARAM_ENCODE_C_CAST = 131072,  // Parameter protocol uses C-cast of parameter values to set the param_value (float) fields: https://mavlink.io/en/services/parameter.html#parameter-encoding.          Note that either this flag or MAV_PROTOCOL_CAPABILITY_PARAM_ENCODE_BYTEWISE should be set if the parameter protocol is supported.         
    MAV_PROTOCOL_CAPABILITY_ENUM_END = 131073,  // end marker
} MAV_PROTOCOL_CAPABILITY;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_MISSION_TYPE
#define FASTMAVLINK_HAS_ENUM_MAV_MISSION_TYPE
typedef enum MAV_MISSION_TYPE {
    MAV_MISSION_TYPE_MISSION = 0,  // Items are mission commands for main mission. 
    MAV_MISSION_TYPE_FENCE = 1,  // Specifies GeoFence area(s). Items are MAV_CMD_NAV_FENCE_ GeoFence items. 
    MAV_MISSION_TYPE_RALLY = 2,  // Specifies the rally points for the vehicle. Rally points are alternative RTL points. Items are MAV_CMD_NAV_RALLY_POINT rally point items. 
    MAV_MISSION_TYPE_ALL = 255,  // Only used in MISSION_CLEAR_ALL to clear all mission types. 
    MAV_MISSION_TYPE_ENUM_END = 256,  // end marker
} MAV_MISSION_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_ESTIMATOR_TYPE
#define FASTMAVLINK_HAS_ENUM_MAV_ESTIMATOR_TYPE
typedef enum MAV_ESTIMATOR_TYPE {
    MAV_ESTIMATOR_TYPE_UNKNOWN = 0,  // Unknown type of the estimator. 
    MAV_ESTIMATOR_TYPE_NAIVE = 1,  // This is a naive estimator without any real covariance feedback. 
    MAV_ESTIMATOR_TYPE_VISION = 2,  // Computer vision based estimate. Might be up to scale. 
    MAV_ESTIMATOR_TYPE_VIO = 3,  // Visual-inertial estimate. 
    MAV_ESTIMATOR_TYPE_GPS = 4,  // Plain GPS estimate. 
    MAV_ESTIMATOR_TYPE_GPS_INS = 5,  // Estimator integrating GPS and inertial sensing. 
    MAV_ESTIMATOR_TYPE_MOCAP = 6,  // Estimate from external motion capturing system. 
    MAV_ESTIMATOR_TYPE_LIDAR = 7,  // Estimator based on lidar sensor input. 
    MAV_ESTIMATOR_TYPE_AUTOPILOT = 8,  // Estimator on autopilot. 
    MAV_ESTIMATOR_TYPE_ENUM_END = 9,  // end marker
} MAV_ESTIMATOR_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_BATTERY_TYPE
#define FASTMAVLINK_HAS_ENUM_MAV_BATTERY_TYPE
typedef enum MAV_BATTERY_TYPE {
    MAV_BATTERY_TYPE_UNKNOWN = 0,  // Not specified. 
    MAV_BATTERY_TYPE_LIPO = 1,  // Lithium polymer battery 
    MAV_BATTERY_TYPE_LIFE = 2,  // Lithium-iron-phosphate battery 
    MAV_BATTERY_TYPE_LION = 3,  // Lithium-ION battery 
    MAV_BATTERY_TYPE_NIMH = 4,  // Nickel metal hydride battery 
    MAV_BATTERY_TYPE_ENUM_END = 5,  // end marker
} MAV_BATTERY_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_BATTERY_FUNCTION
#define FASTMAVLINK_HAS_ENUM_MAV_BATTERY_FUNCTION
typedef enum MAV_BATTERY_FUNCTION {
    MAV_BATTERY_FUNCTION_UNKNOWN = 0,  // Battery function is unknown 
    MAV_BATTERY_FUNCTION_ALL = 1,  // Battery supports all flight systems 
    MAV_BATTERY_FUNCTION_PROPULSION = 2,  // Battery for the propulsion system 
    MAV_BATTERY_FUNCTION_AVIONICS = 3,  // Avionics battery 
    MAV_BATTERY_FUNCTION_PAYLOAD = 4,  // Payload battery 
    MAV_BATTERY_FUNCTION_ENUM_END = 5,  // end marker
} MAV_BATTERY_FUNCTION;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_BATTERY_CHARGE_STATE
#define FASTMAVLINK_HAS_ENUM_MAV_BATTERY_CHARGE_STATE
typedef enum MAV_BATTERY_CHARGE_STATE {
    MAV_BATTERY_CHARGE_STATE_UNDEFINED = 0,  // Low battery state is not provided 
    MAV_BATTERY_CHARGE_STATE_OK = 1,  // Battery is not in low state. Normal operation. 
    MAV_BATTERY_CHARGE_STATE_LOW = 2,  // Battery state is low, warn and monitor close. 
    MAV_BATTERY_CHARGE_STATE_CRITICAL = 3,  // Battery state is critical, return or abort immediately. 
    MAV_BATTERY_CHARGE_STATE_EMERGENCY = 4,  // Battery state is too low for ordinary abort sequence. Perform fastest possible emergency stop to prevent damage. 
    MAV_BATTERY_CHARGE_STATE_FAILED = 5,  // Battery failed, damage unavoidable. Possible causes (faults) are listed in MAV_BATTERY_FAULT. 
    MAV_BATTERY_CHARGE_STATE_UNHEALTHY = 6,  // Battery is diagnosed to be defective or an error occurred, usage is discouraged / prohibited. Possible causes (faults) are listed in MAV_BATTERY_FAULT. 
    MAV_BATTERY_CHARGE_STATE_CHARGING = 7,  // Battery is charging. 
    MAV_BATTERY_CHARGE_STATE_ENUM_END = 8,  // end marker
} MAV_BATTERY_CHARGE_STATE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_BATTERY_MODE
#define FASTMAVLINK_HAS_ENUM_MAV_BATTERY_MODE
typedef enum MAV_BATTERY_MODE {
    MAV_BATTERY_MODE_UNKNOWN = 0,  // Battery mode not supported/unknown battery mode/normal operation. 
    MAV_BATTERY_MODE_AUTO_DISCHARGING = 1,  // Battery is auto discharging (towards storage level). 
    MAV_BATTERY_MODE_HOT_SWAP = 2,  // Battery in hot-swap mode (current limited to prevent spikes that might damage sensitive electrical circuits). 
    MAV_BATTERY_MODE_ENUM_END = 3,  // end marker
} MAV_BATTERY_MODE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_BATTERY_FAULT
#define FASTMAVLINK_HAS_ENUM_MAV_BATTERY_FAULT
typedef enum MAV_BATTERY_FAULT {
    MAV_BATTERY_FAULT_DEEP_DISCHARGE = 1,  // Battery has deep discharged. 
    MAV_BATTERY_FAULT_SPIKES = 2,  // Voltage spikes. 
    MAV_BATTERY_FAULT_CELL_FAIL = 4,  // One or more cells have failed. Battery should also report MAV_BATTERY_CHARGE_STATE_FAILE (and should not be used). 
    MAV_BATTERY_FAULT_OVER_CURRENT = 8,  // Over-current fault. 
    MAV_BATTERY_FAULT_OVER_TEMPERATURE = 16,  // Over-temperature fault. 
    MAV_BATTERY_FAULT_UNDER_TEMPERATURE = 32,  // Under-temperature fault. 
    MAV_BATTERY_FAULT_INCOMPATIBLE_VOLTAGE = 64,  // Vehicle voltage is not compatible with this battery (batteries on same power rail should have similar voltage). 
    MAV_BATTERY_FAULT_INCOMPATIBLE_FIRMWARE = 128,  // Battery firmware is not compatible with current autopilot firmware. 
    BATTERY_FAULT_INCOMPATIBLE_CELLS_CONFIGURATION = 256,  // Battery is not compatible due to cell configuration (e.g. 5s1p when vehicle requires 6s). 
    MAV_BATTERY_FAULT_ENUM_END = 257,  // end marker
} MAV_BATTERY_FAULT;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_GENERATOR_STATUS_FLAG
#define FASTMAVLINK_HAS_ENUM_MAV_GENERATOR_STATUS_FLAG
typedef enum MAV_GENERATOR_STATUS_FLAG {
    MAV_GENERATOR_STATUS_FLAG_OFF = 1,  // Generator is off. 
    MAV_GENERATOR_STATUS_FLAG_READY = 2,  // Generator is ready to start generating power. 
    MAV_GENERATOR_STATUS_FLAG_GENERATING = 4,  // Generator is generating power. 
    MAV_GENERATOR_STATUS_FLAG_CHARGING = 8,  // Generator is charging the batteries (generating enough power to charge and provide the load). 
    MAV_GENERATOR_STATUS_FLAG_REDUCED_POWER = 16,  // Generator is operating at a reduced maximum power. 
    MAV_GENERATOR_STATUS_FLAG_MAXPOWER = 32,  // Generator is providing the maximum output. 
    MAV_GENERATOR_STATUS_FLAG_OVERTEMP_WARNING = 64,  // Generator is near the maximum operating temperature, cooling is insufficient. 
    MAV_GENERATOR_STATUS_FLAG_OVERTEMP_FAULT = 128,  // Generator hit the maximum operating temperature and shutdown. 
    MAV_GENERATOR_STATUS_FLAG_ELECTRONICS_OVERTEMP_WARNING = 256,  // Power electronics are near the maximum operating temperature, cooling is insufficient. 
    MAV_GENERATOR_STATUS_FLAG_ELECTRONICS_OVERTEMP_FAULT = 512,  // Power electronics hit the maximum operating temperature and shutdown. 
    MAV_GENERATOR_STATUS_FLAG_ELECTRONICS_FAULT = 1024,  // Power electronics experienced a fault and shutdown. 
    MAV_GENERATOR_STATUS_FLAG_POWERSOURCE_FAULT = 2048,  // The power source supplying the generator failed e.g. mechanical generator stopped, tether is no longer providing power, solar cell is in shade, hydrogen reaction no longer happening. 
    MAV_GENERATOR_STATUS_FLAG_COMMUNICATION_WARNING = 4096,  // Generator controller having communication problems. 
    MAV_GENERATOR_STATUS_FLAG_COOLING_WARNING = 8192,  // Power electronic or generator cooling system error. 
    MAV_GENERATOR_STATUS_FLAG_POWER_RAIL_FAULT = 16384,  // Generator controller power rail experienced a fault. 
    MAV_GENERATOR_STATUS_FLAG_OVERCURRENT_FAULT = 32768,  // Generator controller exceeded the overcurrent threshold and shutdown to prevent damage. 
    MAV_GENERATOR_STATUS_FLAG_BATTERY_OVERCHARGE_CURRENT_FAULT = 65536,  // Generator controller detected a high current going into the batteries and shutdown to prevent battery damage. 
    MAV_GENERATOR_STATUS_FLAG_OVERVOLTAGE_FAULT = 131072,  // Generator controller exceeded it's overvoltage threshold and shutdown to prevent it exceeding the voltage rating. 
    MAV_GENERATOR_STATUS_FLAG_BATTERY_UNDERVOLT_FAULT = 262144,  // Batteries are under voltage (generator will not start). 
    MAV_GENERATOR_STATUS_FLAG_START_INHIBITED = 524288,  // Generator start is inhibited by e.g. a safety switch. 
    MAV_GENERATOR_STATUS_FLAG_MAINTENANCE_REQUIRED = 1048576,  // Generator requires maintenance. 
    MAV_GENERATOR_STATUS_FLAG_WARMING_UP = 2097152,  // Generator is not ready to generate yet. 
    MAV_GENERATOR_STATUS_FLAG_IDLE = 4194304,  // Generator is idle. 
    MAV_GENERATOR_STATUS_FLAG_ENUM_END = 4194305,  // end marker
} MAV_GENERATOR_STATUS_FLAG;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_VTOL_STATE
#define FASTMAVLINK_HAS_ENUM_MAV_VTOL_STATE
typedef enum MAV_VTOL_STATE {
    MAV_VTOL_STATE_UNDEFINED = 0,  // MAV is not configured as VTOL 
    MAV_VTOL_STATE_TRANSITION_TO_FW = 1,  // VTOL is in transition from multicopter to fixed-wing 
    MAV_VTOL_STATE_TRANSITION_TO_MC = 2,  // VTOL is in transition from fixed-wing to multicopter 
    MAV_VTOL_STATE_MC = 3,  // VTOL is in multicopter state 
    MAV_VTOL_STATE_FW = 4,  // VTOL is in fixed-wing state 
    MAV_VTOL_STATE_ENUM_END = 5,  // end marker
} MAV_VTOL_STATE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_LANDED_STATE
#define FASTMAVLINK_HAS_ENUM_MAV_LANDED_STATE
typedef enum MAV_LANDED_STATE {
    MAV_LANDED_STATE_UNDEFINED = 0,  // MAV landed state is unknown 
    MAV_LANDED_STATE_ON_GROUND = 1,  // MAV is landed (on ground) 
    MAV_LANDED_STATE_IN_AIR = 2,  // MAV is in air 
    MAV_LANDED_STATE_TAKEOFF = 3,  // MAV currently taking off 
    MAV_LANDED_STATE_LANDING = 4,  // MAV currently landing 
    MAV_LANDED_STATE_ENUM_END = 5,  // end marker
} MAV_LANDED_STATE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_ADSB_ALTITUDE_TYPE
#define FASTMAVLINK_HAS_ENUM_ADSB_ALTITUDE_TYPE
typedef enum ADSB_ALTITUDE_TYPE {
    ADSB_ALTITUDE_TYPE_PRESSURE_QNH = 0,  // Altitude reported from a Baro source using QNH reference 
    ADSB_ALTITUDE_TYPE_GEOMETRIC = 1,  // Altitude reported from a GNSS source 
    ADSB_ALTITUDE_TYPE_ENUM_END = 2,  // end marker
} ADSB_ALTITUDE_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_ADSB_EMITTER_TYPE
#define FASTMAVLINK_HAS_ENUM_ADSB_EMITTER_TYPE
typedef enum ADSB_EMITTER_TYPE {
    ADSB_EMITTER_TYPE_NO_INFO = 0,  //  
    ADSB_EMITTER_TYPE_LIGHT = 1,  //  
    ADSB_EMITTER_TYPE_SMALL = 2,  //  
    ADSB_EMITTER_TYPE_LARGE = 3,  //  
    ADSB_EMITTER_TYPE_HIGH_VORTEX_LARGE = 4,  //  
    ADSB_EMITTER_TYPE_HEAVY = 5,  //  
    ADSB_EMITTER_TYPE_HIGHLY_MANUV = 6,  //  
    ADSB_EMITTER_TYPE_ROTOCRAFT = 7,  //  
    ADSB_EMITTER_TYPE_UNASSIGNED = 8,  //  
    ADSB_EMITTER_TYPE_GLIDER = 9,  //  
    ADSB_EMITTER_TYPE_LIGHTER_AIR = 10,  //  
    ADSB_EMITTER_TYPE_PARACHUTE = 11,  //  
    ADSB_EMITTER_TYPE_ULTRA_LIGHT = 12,  //  
    ADSB_EMITTER_TYPE_UNASSIGNED2 = 13,  //  
    ADSB_EMITTER_TYPE_UAV = 14,  //  
    ADSB_EMITTER_TYPE_SPACE = 15,  //  
    ADSB_EMITTER_TYPE_UNASSGINED3 = 16,  //  
    ADSB_EMITTER_TYPE_EMERGENCY_SURFACE = 17,  //  
    ADSB_EMITTER_TYPE_SERVICE_SURFACE = 18,  //  
    ADSB_EMITTER_TYPE_POINT_OBSTACLE = 19,  //  
    ADSB_EMITTER_TYPE_ENUM_END = 20,  // end marker
} ADSB_EMITTER_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_ADSB_FLAGS
#define FASTMAVLINK_HAS_ENUM_ADSB_FLAGS
typedef enum ADSB_FLAGS {
    ADSB_FLAGS_VALID_COORDS = 1,  //  
    ADSB_FLAGS_VALID_ALTITUDE = 2,  //  
    ADSB_FLAGS_VALID_HEADING = 4,  //  
    ADSB_FLAGS_VALID_VELOCITY = 8,  //  
    ADSB_FLAGS_VALID_CALLSIGN = 16,  //  
    ADSB_FLAGS_VALID_SQUAWK = 32,  //  
    ADSB_FLAGS_SIMULATED = 64,  //  
    ADSB_FLAGS_VERTICAL_VELOCITY_VALID = 128,  //  
    ADSB_FLAGS_BARO_VALID = 256,  //  
    ADSB_FLAGS_SOURCE_UAT = 32768,  //  
    ADSB_FLAGS_ENUM_END = 32769,  // end marker
} ADSB_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_DO_REPOSITION_FLAGS
#define FASTMAVLINK_HAS_ENUM_MAV_DO_REPOSITION_FLAGS
typedef enum MAV_DO_REPOSITION_FLAGS {
    MAV_DO_REPOSITION_FLAGS_CHANGE_MODE = 1,  // The aircraft should immediately transition into guided. This should not be set for follow me applications 
    MAV_DO_REPOSITION_FLAGS_ENUM_END = 2,  // end marker
} MAV_DO_REPOSITION_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_SPEED_TYPE
#define FASTMAVLINK_HAS_ENUM_SPEED_TYPE
typedef enum SPEED_TYPE {
    SPEED_TYPE_AIRSPEED = 0,  // Airspeed 
    SPEED_TYPE_GROUNDSPEED = 1,  // Groundspeed 
    SPEED_TYPE_CLIMB_SPEED = 2,  // Climb speed 
    SPEED_TYPE_DESCENT_SPEED = 3,  // Descent speed 
    SPEED_TYPE_ENUM_END = 4,  // end marker
} SPEED_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_ESTIMATOR_STATUS_FLAGS
#define FASTMAVLINK_HAS_ENUM_ESTIMATOR_STATUS_FLAGS
typedef enum ESTIMATOR_STATUS_FLAGS {
    ESTIMATOR_ATTITUDE = 1,  // True if the attitude estimate is good 
    ESTIMATOR_VELOCITY_HORIZ = 2,  // True if the horizontal velocity estimate is good 
    ESTIMATOR_VELOCITY_VERT = 4,  // True if the  vertical velocity estimate is good 
    ESTIMATOR_POS_HORIZ_REL = 8,  // True if the horizontal position (relative) estimate is good 
    ESTIMATOR_POS_HORIZ_ABS = 16,  // True if the horizontal position (absolute) estimate is good 
    ESTIMATOR_POS_VERT_ABS = 32,  // True if the vertical position (absolute) estimate is good 
    ESTIMATOR_POS_VERT_AGL = 64,  // True if the vertical position (above ground) estimate is good 
    ESTIMATOR_CONST_POS_MODE = 128,  // True if the EKF is in a constant position mode and is not using external measurements (eg GPS or optical flow) 
    ESTIMATOR_PRED_POS_HORIZ_REL = 256,  // True if the EKF has sufficient data to enter a mode that will provide a (relative) position estimate 
    ESTIMATOR_PRED_POS_HORIZ_ABS = 512,  // True if the EKF has sufficient data to enter a mode that will provide a (absolute) position estimate 
    ESTIMATOR_GPS_GLITCH = 1024,  // True if the EKF has detected a GPS glitch 
    ESTIMATOR_ACCEL_ERROR = 2048,  // True if the EKF has detected bad accelerometer data 
    ESTIMATOR_STATUS_FLAGS_ENUM_END = 2049,  // end marker
} ESTIMATOR_STATUS_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MOTOR_TEST_ORDER
#define FASTMAVLINK_HAS_ENUM_MOTOR_TEST_ORDER
typedef enum MOTOR_TEST_ORDER {
    MOTOR_TEST_ORDER_DEFAULT = 0,  // Default autopilot motor test method. 
    MOTOR_TEST_ORDER_SEQUENCE = 1,  // Motor numbers are specified as their index in a predefined vehicle-specific sequence. 
    MOTOR_TEST_ORDER_BOARD = 2,  // Motor numbers are specified as the output as labeled on the board. 
    MOTOR_TEST_ORDER_ENUM_END = 3,  // end marker
} MOTOR_TEST_ORDER;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MOTOR_TEST_THROTTLE_TYPE
#define FASTMAVLINK_HAS_ENUM_MOTOR_TEST_THROTTLE_TYPE
typedef enum MOTOR_TEST_THROTTLE_TYPE {
    MOTOR_TEST_THROTTLE_PERCENT = 0,  // Throttle as a percentage (0 ~ 100) 
    MOTOR_TEST_THROTTLE_PWM = 1,  // Throttle as an absolute PWM value (normally in range of 1000~2000). 
    MOTOR_TEST_THROTTLE_PILOT = 2,  // Throttle pass-through from pilot's transmitter. 
    MOTOR_TEST_COMPASS_CAL = 3,  // Per-motor compass calibration test. 
    MOTOR_TEST_THROTTLE_TYPE_ENUM_END = 4,  // end marker
} MOTOR_TEST_THROTTLE_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GPS_INPUT_IGNORE_FLAGS
#define FASTMAVLINK_HAS_ENUM_GPS_INPUT_IGNORE_FLAGS
typedef enum GPS_INPUT_IGNORE_FLAGS {
    GPS_INPUT_IGNORE_FLAG_ALT = 1,  // ignore altitude field 
    GPS_INPUT_IGNORE_FLAG_HDOP = 2,  // ignore hdop field 
    GPS_INPUT_IGNORE_FLAG_VDOP = 4,  // ignore vdop field 
    GPS_INPUT_IGNORE_FLAG_VEL_HORIZ = 8,  // ignore horizontal velocity field (vn and ve) 
    GPS_INPUT_IGNORE_FLAG_VEL_VERT = 16,  // ignore vertical velocity field (vd) 
    GPS_INPUT_IGNORE_FLAG_SPEED_ACCURACY = 32,  // ignore speed accuracy field 
    GPS_INPUT_IGNORE_FLAG_HORIZONTAL_ACCURACY = 64,  // ignore horizontal accuracy field 
    GPS_INPUT_IGNORE_FLAG_VERTICAL_ACCURACY = 128,  // ignore vertical accuracy field 
    GPS_INPUT_IGNORE_FLAGS_ENUM_END = 129,  // end marker
} GPS_INPUT_IGNORE_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_COLLISION_ACTION
#define FASTMAVLINK_HAS_ENUM_MAV_COLLISION_ACTION
typedef enum MAV_COLLISION_ACTION {
    MAV_COLLISION_ACTION_NONE = 0,  // Ignore any potential collisions 
    MAV_COLLISION_ACTION_REPORT = 1,  // Report potential collision 
    MAV_COLLISION_ACTION_ASCEND_OR_DESCEND = 2,  // Ascend or Descend to avoid threat 
    MAV_COLLISION_ACTION_MOVE_HORIZONTALLY = 3,  // Move horizontally to avoid threat 
    MAV_COLLISION_ACTION_MOVE_PERPENDICULAR = 4,  // Aircraft to move perpendicular to the collision's velocity vector 
    MAV_COLLISION_ACTION_RTL = 5,  // Aircraft to fly directly back to its launch point 
    MAV_COLLISION_ACTION_HOVER = 6,  // Aircraft to stop in place 
    MAV_COLLISION_ACTION_ENUM_END = 7,  // end marker
} MAV_COLLISION_ACTION;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_COLLISION_THREAT_LEVEL
#define FASTMAVLINK_HAS_ENUM_MAV_COLLISION_THREAT_LEVEL
typedef enum MAV_COLLISION_THREAT_LEVEL {
    MAV_COLLISION_THREAT_LEVEL_NONE = 0,  // Not a threat 
    MAV_COLLISION_THREAT_LEVEL_LOW = 1,  // Craft is mildly concerned about this threat 
    MAV_COLLISION_THREAT_LEVEL_HIGH = 2,  // Craft is panicking, and may take actions to avoid threat 
    MAV_COLLISION_THREAT_LEVEL_ENUM_END = 3,  // end marker
} MAV_COLLISION_THREAT_LEVEL;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_COLLISION_SRC
#define FASTMAVLINK_HAS_ENUM_MAV_COLLISION_SRC
typedef enum MAV_COLLISION_SRC {
    MAV_COLLISION_SRC_ADSB = 0,  // ID field references ADSB_VEHICLE packets 
    MAV_COLLISION_SRC_MAVLINK_GPS_GLOBAL_INT = 1,  // ID field references MAVLink SRC ID 
    MAV_COLLISION_SRC_ENUM_END = 2,  // end marker
} MAV_COLLISION_SRC;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GPS_FIX_TYPE
#define FASTMAVLINK_HAS_ENUM_GPS_FIX_TYPE
typedef enum GPS_FIX_TYPE {
    GPS_FIX_TYPE_NO_GPS = 0,  // No GPS connected 
    GPS_FIX_TYPE_NO_FIX = 1,  // No position information, GPS is connected 
    GPS_FIX_TYPE_2D_FIX = 2,  // 2D position 
    GPS_FIX_TYPE_3D_FIX = 3,  // 3D position 
    GPS_FIX_TYPE_DGPS = 4,  // DGPS/SBAS aided 3D position 
    GPS_FIX_TYPE_RTK_FLOAT = 5,  // RTK float, 3D position 
    GPS_FIX_TYPE_RTK_FIXED = 6,  // RTK Fixed, 3D position 
    GPS_FIX_TYPE_STATIC = 7,  // Static fixed, typically used for base stations 
    GPS_FIX_TYPE_PPP = 8,  // PPP, 3D position. 
    GPS_FIX_TYPE_ENUM_END = 9,  // end marker
} GPS_FIX_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_RTK_BASELINE_COORDINATE_SYSTEM
#define FASTMAVLINK_HAS_ENUM_RTK_BASELINE_COORDINATE_SYSTEM
typedef enum RTK_BASELINE_COORDINATE_SYSTEM {
    RTK_BASELINE_COORDINATE_SYSTEM_ECEF = 0,  // Earth-centered, Earth-fixed 
    RTK_BASELINE_COORDINATE_SYSTEM_NED = 1,  // RTK basestation centered, north, east, down 
    RTK_BASELINE_COORDINATE_SYSTEM_ENUM_END = 2,  // end marker
} RTK_BASELINE_COORDINATE_SYSTEM;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_LANDING_TARGET_TYPE
#define FASTMAVLINK_HAS_ENUM_LANDING_TARGET_TYPE
typedef enum LANDING_TARGET_TYPE {
    LANDING_TARGET_TYPE_LIGHT_BEACON = 0,  // Landing target signaled by light beacon (ex: IR-LOCK) 
    LANDING_TARGET_TYPE_RADIO_BEACON = 1,  // Landing target signaled by radio beacon (ex: ILS, NDB) 
    LANDING_TARGET_TYPE_VISION_FIDUCIAL = 2,  // Landing target represented by a fiducial marker (ex: ARTag) 
    LANDING_TARGET_TYPE_VISION_OTHER = 3,  // Landing target represented by a pre-defined visual shape/feature (ex: X-marker, H-marker, square) 
    LANDING_TARGET_TYPE_ENUM_END = 4,  // end marker
} LANDING_TARGET_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_VTOL_TRANSITION_HEADING
#define FASTMAVLINK_HAS_ENUM_VTOL_TRANSITION_HEADING
typedef enum VTOL_TRANSITION_HEADING {
    VTOL_TRANSITION_HEADING_VEHICLE_DEFAULT = 0,  // Respect the heading configuration of the vehicle. 
    VTOL_TRANSITION_HEADING_NEXT_WAYPOINT = 1,  // Use the heading pointing towards the next waypoint. 
    VTOL_TRANSITION_HEADING_TAKEOFF = 2,  // Use the heading on takeoff (while sitting on the ground). 
    VTOL_TRANSITION_HEADING_SPECIFIED = 3,  // Use the specified heading in parameter 4. 
    VTOL_TRANSITION_HEADING_ANY = 4,  // Use the current heading when reaching takeoff altitude (potentially facing the wind when weather-vaning is active). 
    VTOL_TRANSITION_HEADING_ENUM_END = 5,  // end marker
} VTOL_TRANSITION_HEADING;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_CAMERA_CAP_FLAGS
#define FASTMAVLINK_HAS_ENUM_CAMERA_CAP_FLAGS
typedef enum CAMERA_CAP_FLAGS {
    CAMERA_CAP_FLAGS_CAPTURE_VIDEO = 1,  // Camera is able to record video 
    CAMERA_CAP_FLAGS_CAPTURE_IMAGE = 2,  // Camera is able to capture images 
    CAMERA_CAP_FLAGS_HAS_MODES = 4,  // Camera has separate Video and Image/Photo modes (MAV_CMD_SET_CAMERA_MODE) 
    CAMERA_CAP_FLAGS_CAN_CAPTURE_IMAGE_IN_VIDEO_MODE = 8,  // Camera can capture images while in video mode 
    CAMERA_CAP_FLAGS_CAN_CAPTURE_VIDEO_IN_IMAGE_MODE = 16,  // Camera can capture videos while in Photo/Image mode 
    CAMERA_CAP_FLAGS_HAS_IMAGE_SURVEY_MODE = 32,  // Camera has image survey mode (MAV_CMD_SET_CAMERA_MODE) 
    CAMERA_CAP_FLAGS_HAS_BASIC_ZOOM = 64,  // Camera has basic zoom control (MAV_CMD_SET_CAMERA_ZOOM) 
    CAMERA_CAP_FLAGS_HAS_BASIC_FOCUS = 128,  // Camera has basic focus control (MAV_CMD_SET_CAMERA_FOCUS) 
    CAMERA_CAP_FLAGS_HAS_VIDEO_STREAM = 256,  // Camera has video streaming capabilities (request VIDEO_STREAM_INFORMATION with MAV_CMD_REQUEST_MESSAGE for video streaming info) 
    CAMERA_CAP_FLAGS_HAS_TRACKING_POINT = 512,  // Camera supports tracking of a point on the camera view. 
    CAMERA_CAP_FLAGS_HAS_TRACKING_RECTANGLE = 1024,  // Camera supports tracking of a selection rectangle on the camera view. 
    CAMERA_CAP_FLAGS_HAS_TRACKING_GEO_STATUS = 2048,  // Camera supports tracking geo status (CAMERA_TRACKING_GEO_STATUS). 
    CAMERA_CAP_FLAGS_ENUM_END = 2049,  // end marker
} CAMERA_CAP_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_VIDEO_STREAM_STATUS_FLAGS
#define FASTMAVLINK_HAS_ENUM_VIDEO_STREAM_STATUS_FLAGS
typedef enum VIDEO_STREAM_STATUS_FLAGS {
    VIDEO_STREAM_STATUS_FLAGS_RUNNING = 1,  // Stream is active (running) 
    VIDEO_STREAM_STATUS_FLAGS_THERMAL = 2,  // Stream is thermal imaging 
    VIDEO_STREAM_STATUS_FLAGS_ENUM_END = 3,  // end marker
} VIDEO_STREAM_STATUS_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_VIDEO_STREAM_TYPE
#define FASTMAVLINK_HAS_ENUM_VIDEO_STREAM_TYPE
typedef enum VIDEO_STREAM_TYPE {
    VIDEO_STREAM_TYPE_RTSP = 0,  // Stream is RTSP 
    VIDEO_STREAM_TYPE_RTPUDP = 1,  // Stream is RTP UDP (URI gives the port number) 
    VIDEO_STREAM_TYPE_TCP_MPEG = 2,  // Stream is MPEG on TCP 
    VIDEO_STREAM_TYPE_MPEG_TS_H264 = 3,  // Stream is h.264 on MPEG TS (URI gives the port number) 
    VIDEO_STREAM_TYPE_ENUM_END = 4,  // end marker
} VIDEO_STREAM_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_CAMERA_TRACKING_STATUS_FLAGS
#define FASTMAVLINK_HAS_ENUM_CAMERA_TRACKING_STATUS_FLAGS
typedef enum CAMERA_TRACKING_STATUS_FLAGS {
    CAMERA_TRACKING_STATUS_FLAGS_IDLE = 0,  // Camera is not tracking 
    CAMERA_TRACKING_STATUS_FLAGS_ACTIVE = 1,  // Camera is tracking 
    CAMERA_TRACKING_STATUS_FLAGS_ERROR = 2,  // Camera tracking in error state 
    CAMERA_TRACKING_STATUS_FLAGS_ENUM_END = 3,  // end marker
} CAMERA_TRACKING_STATUS_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_CAMERA_TRACKING_MODE
#define FASTMAVLINK_HAS_ENUM_CAMERA_TRACKING_MODE
typedef enum CAMERA_TRACKING_MODE {
    CAMERA_TRACKING_MODE_NONE = 0,  // Not tracking 
    CAMERA_TRACKING_MODE_POINT = 1,  // Target is a point 
    CAMERA_TRACKING_MODE_RECTANGLE = 2,  // Target is a rectangle 
    CAMERA_TRACKING_MODE_ENUM_END = 3,  // end marker
} CAMERA_TRACKING_MODE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_CAMERA_TRACKING_TARGET_DATA
#define FASTMAVLINK_HAS_ENUM_CAMERA_TRACKING_TARGET_DATA
typedef enum CAMERA_TRACKING_TARGET_DATA {
    CAMERA_TRACKING_TARGET_DATA_NONE = 0,  // No target data 
    CAMERA_TRACKING_TARGET_DATA_EMBEDDED = 1,  // Target data embedded in image data (proprietary) 
    CAMERA_TRACKING_TARGET_DATA_RENDERED = 2,  // Target data rendered in image 
    CAMERA_TRACKING_TARGET_DATA_IN_STATUS = 4,  // Target data within status message (Point or Rectangle) 
    CAMERA_TRACKING_TARGET_DATA_ENUM_END = 5,  // end marker
} CAMERA_TRACKING_TARGET_DATA;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_CAMERA_ZOOM_TYPE
#define FASTMAVLINK_HAS_ENUM_CAMERA_ZOOM_TYPE
typedef enum CAMERA_ZOOM_TYPE {
    ZOOM_TYPE_STEP = 0,  // Zoom one step increment (-1 for wide, 1 for tele) 
    ZOOM_TYPE_CONTINUOUS = 1,  // Continuous zoom up/down until stopped (-1 for wide, 1 for tele, 0 to stop zooming) 
    ZOOM_TYPE_RANGE = 2,  // Zoom value as proportion of full camera range (a percentage value between 0.0 and 100.0) 
    ZOOM_TYPE_FOCAL_LENGTH = 3,  // Zoom value/variable focal length in millimetres. Note that there is no message to get the valid zoom range of the camera, so this can type can only be used for cameras where the zoom range is known (implying that this cannot reliably be used in a GCS for an arbitrary camera) 
    ZOOM_TYPE_HORIZONTAL_FOV = 4,  // Zoom value as horizontal field of view in degrees. 
    CAMERA_ZOOM_TYPE_ENUM_END = 5,  // end marker
} CAMERA_ZOOM_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_SET_FOCUS_TYPE
#define FASTMAVLINK_HAS_ENUM_SET_FOCUS_TYPE
typedef enum SET_FOCUS_TYPE {
    FOCUS_TYPE_STEP = 0,  // Focus one step increment (-1 for focusing in, 1 for focusing out towards infinity). 
    FOCUS_TYPE_CONTINUOUS = 1,  // Continuous focus up/down until stopped (-1 for focusing in, 1 for focusing out towards infinity, 0 to stop focusing) 
    FOCUS_TYPE_RANGE = 2,  // Focus value as proportion of full camera focus range (a value between 0.0 and 100.0) 
    FOCUS_TYPE_METERS = 3,  // Focus value in metres. Note that there is no message to get the valid focus range of the camera, so this can type can only be used for cameras where the range is known (implying that this cannot reliably be used in a GCS for an arbitrary camera). 
    FOCUS_TYPE_AUTO = 4,  // Focus automatically. 
    FOCUS_TYPE_AUTO_SINGLE = 5,  // Single auto focus. Mainly used for still pictures. Usually abbreviated as AF-S. 
    FOCUS_TYPE_AUTO_CONTINUOUS = 6,  // Continuous auto focus. Mainly used for dynamic scenes. Abbreviated as AF-C. 
    SET_FOCUS_TYPE_ENUM_END = 7,  // end marker
} SET_FOCUS_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_CAMERA_SOURCE
#define FASTMAVLINK_HAS_ENUM_CAMERA_SOURCE
typedef enum CAMERA_SOURCE {
    CAMERA_SOURCE_DEFAULT = 0,  // Default camera source. 
    CAMERA_SOURCE_RGB = 1,  // RGB camera source. 
    CAMERA_SOURCE_IR = 2,  // IR camera source. 
    CAMERA_SOURCE_NDVI = 3,  // NDVI camera source. 
    CAMERA_SOURCE_ENUM_END = 4,  // end marker
} CAMERA_SOURCE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_PARAM_ACK
#define FASTMAVLINK_HAS_ENUM_PARAM_ACK
typedef enum PARAM_ACK {
    PARAM_ACK_ACCEPTED = 0,  // Parameter value ACCEPTED and SET 
    PARAM_ACK_VALUE_UNSUPPORTED = 1,  // Parameter value UNKNOWN/UNSUPPORTED 
    PARAM_ACK_FAILED = 2,  // Parameter failed to set 
    PARAM_ACK_IN_PROGRESS = 3,  // Parameter value received but not yet set/accepted. A subsequent PARAM_ACK_TRANSACTION or PARAM_EXT_ACK with the final result will follow once operation is completed. This is returned immediately for parameters that take longer to set, indicating that the the parameter was received and does not need to be resent. 
    PARAM_ACK_ENUM_END = 4,  // end marker
} PARAM_ACK;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_CAMERA_MODE
#define FASTMAVLINK_HAS_ENUM_CAMERA_MODE
typedef enum CAMERA_MODE {
    CAMERA_MODE_IMAGE = 0,  // Camera is in image/photo capture mode. 
    CAMERA_MODE_VIDEO = 1,  // Camera is in video capture mode. 
    CAMERA_MODE_IMAGE_SURVEY = 2,  // Camera is in image survey capture mode. It allows for camera controller to do specific settings for surveys. 
    CAMERA_MODE_ENUM_END = 3,  // end marker
} CAMERA_MODE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_ARM_AUTH_DENIED_REASON
#define FASTMAVLINK_HAS_ENUM_MAV_ARM_AUTH_DENIED_REASON
typedef enum MAV_ARM_AUTH_DENIED_REASON {
    MAV_ARM_AUTH_DENIED_REASON_GENERIC = 0,  // Not a specific reason 
    MAV_ARM_AUTH_DENIED_REASON_NONE = 1,  // Authorizer will send the error as string to GCS 
    MAV_ARM_AUTH_DENIED_REASON_INVALID_WAYPOINT = 2,  // At least one waypoint have a invalid value 
    MAV_ARM_AUTH_DENIED_REASON_TIMEOUT = 3,  // Timeout in the authorizer process(in case it depends on network) 
    MAV_ARM_AUTH_DENIED_REASON_AIRSPACE_IN_USE = 4,  // Airspace of the mission in use by another vehicle, second result parameter can have the waypoint id that caused it to be denied. 
    MAV_ARM_AUTH_DENIED_REASON_BAD_WEATHER = 5,  // Weather is not good to fly 
    MAV_ARM_AUTH_DENIED_REASON_ENUM_END = 6,  // end marker
} MAV_ARM_AUTH_DENIED_REASON;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_RC_TYPE
#define FASTMAVLINK_HAS_ENUM_RC_TYPE
typedef enum RC_TYPE {
    RC_TYPE_SPEKTRUM_DSM2 = 0,  // Spektrum DSM2 
    RC_TYPE_SPEKTRUM_DSMX = 1,  // Spektrum DSMX 
    RC_TYPE_ENUM_END = 2,  // end marker
} RC_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_POSITION_TARGET_TYPEMASK
#define FASTMAVLINK_HAS_ENUM_POSITION_TARGET_TYPEMASK
typedef enum POSITION_TARGET_TYPEMASK {
    POSITION_TARGET_TYPEMASK_X_IGNORE = 1,  // Ignore position x 
    POSITION_TARGET_TYPEMASK_Y_IGNORE = 2,  // Ignore position y 
    POSITION_TARGET_TYPEMASK_Z_IGNORE = 4,  // Ignore position z 
    POSITION_TARGET_TYPEMASK_VX_IGNORE = 8,  // Ignore velocity x 
    POSITION_TARGET_TYPEMASK_VY_IGNORE = 16,  // Ignore velocity y 
    POSITION_TARGET_TYPEMASK_VZ_IGNORE = 32,  // Ignore velocity z 
    POSITION_TARGET_TYPEMASK_AX_IGNORE = 64,  // Ignore acceleration x 
    POSITION_TARGET_TYPEMASK_AY_IGNORE = 128,  // Ignore acceleration y 
    POSITION_TARGET_TYPEMASK_AZ_IGNORE = 256,  // Ignore acceleration z 
    POSITION_TARGET_TYPEMASK_FORCE_SET = 512,  // Use force instead of acceleration 
    POSITION_TARGET_TYPEMASK_YAW_IGNORE = 1024,  // Ignore yaw 
    POSITION_TARGET_TYPEMASK_YAW_RATE_IGNORE = 2048,  // Ignore yaw rate 
    POSITION_TARGET_TYPEMASK_ENUM_END = 2049,  // end marker
} POSITION_TARGET_TYPEMASK;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_ATTITUDE_TARGET_TYPEMASK
#define FASTMAVLINK_HAS_ENUM_ATTITUDE_TARGET_TYPEMASK
typedef enum ATTITUDE_TARGET_TYPEMASK {
    ATTITUDE_TARGET_TYPEMASK_BODY_ROLL_RATE_IGNORE = 1,  // Ignore body roll rate 
    ATTITUDE_TARGET_TYPEMASK_BODY_PITCH_RATE_IGNORE = 2,  // Ignore body pitch rate 
    ATTITUDE_TARGET_TYPEMASK_BODY_YAW_RATE_IGNORE = 4,  // Ignore body yaw rate 
    ATTITUDE_TARGET_TYPEMASK_THRUST_BODY_SET = 32,  // Use 3D body thrust setpoint instead of throttle 
    ATTITUDE_TARGET_TYPEMASK_THROTTLE_IGNORE = 64,  // Ignore throttle 
    ATTITUDE_TARGET_TYPEMASK_ATTITUDE_IGNORE = 128,  // Ignore attitude 
    ATTITUDE_TARGET_TYPEMASK_ENUM_END = 129,  // end marker
} ATTITUDE_TARGET_TYPEMASK;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_UTM_FLIGHT_STATE
#define FASTMAVLINK_HAS_ENUM_UTM_FLIGHT_STATE
typedef enum UTM_FLIGHT_STATE {
    UTM_FLIGHT_STATE_UNKNOWN = 1,  // The flight state can't be determined. 
    UTM_FLIGHT_STATE_GROUND = 2,  // UAS on ground. 
    UTM_FLIGHT_STATE_AIRBORNE = 3,  // UAS airborne. 
    UTM_FLIGHT_STATE_EMERGENCY = 16,  // UAS is in an emergency flight state. 
    UTM_FLIGHT_STATE_NOCTRL = 32,  // UAS has no active controls. 
    UTM_FLIGHT_STATE_ENUM_END = 33,  // end marker
} UTM_FLIGHT_STATE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_UTM_DATA_AVAIL_FLAGS
#define FASTMAVLINK_HAS_ENUM_UTM_DATA_AVAIL_FLAGS
typedef enum UTM_DATA_AVAIL_FLAGS {
    UTM_DATA_AVAIL_FLAGS_TIME_VALID = 1,  // The field time contains valid data. 
    UTM_DATA_AVAIL_FLAGS_UAS_ID_AVAILABLE = 2,  // The field uas_id contains valid data. 
    UTM_DATA_AVAIL_FLAGS_POSITION_AVAILABLE = 4,  // The fields lat, lon and h_acc contain valid data. 
    UTM_DATA_AVAIL_FLAGS_ALTITUDE_AVAILABLE = 8,  // The fields alt and v_acc contain valid data. 
    UTM_DATA_AVAIL_FLAGS_RELATIVE_ALTITUDE_AVAILABLE = 16,  // The field relative_alt contains valid data. 
    UTM_DATA_AVAIL_FLAGS_HORIZONTAL_VELO_AVAILABLE = 32,  // The fields vx and vy contain valid data. 
    UTM_DATA_AVAIL_FLAGS_VERTICAL_VELO_AVAILABLE = 64,  // The field vz contains valid data. 
    UTM_DATA_AVAIL_FLAGS_NEXT_WAYPOINT_AVAILABLE = 128,  // The fields next_lat, next_lon and next_alt contain valid data. 
    UTM_DATA_AVAIL_FLAGS_ENUM_END = 129,  // end marker
} UTM_DATA_AVAIL_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_CELLULAR_STATUS_FLAG
#define FASTMAVLINK_HAS_ENUM_CELLULAR_STATUS_FLAG
typedef enum CELLULAR_STATUS_FLAG {
    CELLULAR_STATUS_FLAG_UNKNOWN = 0,  // State unknown or not reportable. 
    CELLULAR_STATUS_FLAG_FAILED = 1,  // Modem is unusable 
    CELLULAR_STATUS_FLAG_INITIALIZING = 2,  // Modem is being initialized 
    CELLULAR_STATUS_FLAG_LOCKED = 3,  // Modem is locked 
    CELLULAR_STATUS_FLAG_DISABLED = 4,  // Modem is not enabled and is powered down 
    CELLULAR_STATUS_FLAG_DISABLING = 5,  // Modem is currently transitioning to the CELLULAR_STATUS_FLAG_DISABLED state 
    CELLULAR_STATUS_FLAG_ENABLING = 6,  // Modem is currently transitioning to the CELLULAR_STATUS_FLAG_ENABLED state 
    CELLULAR_STATUS_FLAG_ENABLED = 7,  // Modem is enabled and powered on but not registered with a network provider and not available for data connections 
    CELLULAR_STATUS_FLAG_SEARCHING = 8,  // Modem is searching for a network provider to register 
    CELLULAR_STATUS_FLAG_REGISTERED = 9,  // Modem is registered with a network provider, and data connections and messaging may be available for use 
    CELLULAR_STATUS_FLAG_DISCONNECTING = 10,  // Modem is disconnecting and deactivating the last active packet data bearer. This state will not be entered if more than one packet data bearer is active and one of the active bearers is deactivated 
    CELLULAR_STATUS_FLAG_CONNECTING = 11,  // Modem is activating and connecting the first packet data bearer. Subsequent bearer activations when another bearer is already active do not cause this state to be entered 
    CELLULAR_STATUS_FLAG_CONNECTED = 12,  // One or more packet data bearers is active and connected 
    CELLULAR_STATUS_FLAG_ENUM_END = 13,  // end marker
} CELLULAR_STATUS_FLAG;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_CELLULAR_NETWORK_FAILED_REASON
#define FASTMAVLINK_HAS_ENUM_CELLULAR_NETWORK_FAILED_REASON
typedef enum CELLULAR_NETWORK_FAILED_REASON {
    CELLULAR_NETWORK_FAILED_REASON_NONE = 0,  // No error 
    CELLULAR_NETWORK_FAILED_REASON_UNKNOWN = 1,  // Error state is unknown 
    CELLULAR_NETWORK_FAILED_REASON_SIM_MISSING = 2,  // SIM is required for the modem but missing 
    CELLULAR_NETWORK_FAILED_REASON_SIM_ERROR = 3,  // SIM is available, but not usable for connection 
    CELLULAR_NETWORK_FAILED_REASON_ENUM_END = 4,  // end marker
} CELLULAR_NETWORK_FAILED_REASON;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_CELLULAR_NETWORK_RADIO_TYPE
#define FASTMAVLINK_HAS_ENUM_CELLULAR_NETWORK_RADIO_TYPE
typedef enum CELLULAR_NETWORK_RADIO_TYPE {
    CELLULAR_NETWORK_RADIO_TYPE_NONE = 0,  //  
    CELLULAR_NETWORK_RADIO_TYPE_GSM = 1,  //  
    CELLULAR_NETWORK_RADIO_TYPE_CDMA = 2,  //  
    CELLULAR_NETWORK_RADIO_TYPE_WCDMA = 3,  //  
    CELLULAR_NETWORK_RADIO_TYPE_LTE = 4,  //  
    CELLULAR_NETWORK_RADIO_TYPE_ENUM_END = 5,  // end marker
} CELLULAR_NETWORK_RADIO_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_PRECISION_LAND_MODE
#define FASTMAVLINK_HAS_ENUM_PRECISION_LAND_MODE
typedef enum PRECISION_LAND_MODE {
    PRECISION_LAND_MODE_DISABLED = 0,  // Normal (non-precision) landing. 
    PRECISION_LAND_MODE_OPPORTUNISTIC = 1,  // Use precision landing if beacon detected when land command accepted, otherwise land normally. 
    PRECISION_LAND_MODE_REQUIRED = 2,  // Use precision landing, searching for beacon if not found when land command accepted (land normally if beacon cannot be found). 
    PRECISION_LAND_MODE_ENUM_END = 3,  // end marker
} PRECISION_LAND_MODE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_PARACHUTE_ACTION
#define FASTMAVLINK_HAS_ENUM_PARACHUTE_ACTION
typedef enum PARACHUTE_ACTION {
    PARACHUTE_DISABLE = 0,  // Disable auto-release of parachute (i.e. release triggered by crash detectors). 
    PARACHUTE_ENABLE = 1,  // Enable auto-release of parachute. 
    PARACHUTE_RELEASE = 2,  // Release parachute and kill motors. 
    PARACHUTE_ACTION_ENUM_END = 3,  // end marker
} PARACHUTE_ACTION;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_TUNNEL_PAYLOAD_TYPE
#define FASTMAVLINK_HAS_ENUM_MAV_TUNNEL_PAYLOAD_TYPE
typedef enum MAV_TUNNEL_PAYLOAD_TYPE {
    MAV_TUNNEL_PAYLOAD_TYPE_UNKNOWN = 0,  // Encoding of payload unknown. 
    MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED0 = 200,  // Registered for STorM32 gimbal controller. 
    MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED1 = 201,  // Registered for STorM32 gimbal controller. 
    MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED2 = 202,  // Registered for STorM32 gimbal controller. 
    MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED3 = 203,  // Registered for STorM32 gimbal controller. 
    MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED4 = 204,  // Registered for STorM32 gimbal controller. 
    MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED5 = 205,  // Registered for STorM32 gimbal controller. 
    MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED6 = 206,  // Registered for STorM32 gimbal controller. 
    MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED7 = 207,  // Registered for STorM32 gimbal controller. 
    MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED8 = 208,  // Registered for STorM32 gimbal controller. 
    MAV_TUNNEL_PAYLOAD_TYPE_STORM32_RESERVED9 = 209,  // Registered for STorM32 gimbal controller. 
    MAV_TUNNEL_PAYLOAD_TYPE_ENUM_END = 210,  // end marker
} MAV_TUNNEL_PAYLOAD_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_ODID_ID_TYPE
#define FASTMAVLINK_HAS_ENUM_MAV_ODID_ID_TYPE
typedef enum MAV_ODID_ID_TYPE {
    MAV_ODID_ID_TYPE_NONE = 0,  // No type defined. 
    MAV_ODID_ID_TYPE_SERIAL_NUMBER = 1,  // Manufacturer Serial Number (ANSI/CTA-2063 format). 
    MAV_ODID_ID_TYPE_CAA_REGISTRATION_ID = 2,  // CAA (Civil Aviation Authority) registered ID. Format: [ICAO Country Code].[CAA Assigned ID]. 
    MAV_ODID_ID_TYPE_UTM_ASSIGNED_UUID = 3,  // UTM (Unmanned Traffic Management) assigned UUID (RFC4122). 
    MAV_ODID_ID_TYPE_SPECIFIC_SESSION_ID = 4,  // A 20 byte ID for a specific flight/session. The exact ID type is indicated by the first byte of uas_id and these type values are managed by ICAO. 
    MAV_ODID_ID_TYPE_ENUM_END = 5,  // end marker
} MAV_ODID_ID_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_ODID_UA_TYPE
#define FASTMAVLINK_HAS_ENUM_MAV_ODID_UA_TYPE
typedef enum MAV_ODID_UA_TYPE {
    MAV_ODID_UA_TYPE_NONE = 0,  // No UA (Unmanned Aircraft) type defined. 
    MAV_ODID_UA_TYPE_AEROPLANE = 1,  // Aeroplane/Airplane. Fixed wing. 
    MAV_ODID_UA_TYPE_HELICOPTER_OR_MULTIROTOR = 2,  // Helicopter or multirotor. 
    MAV_ODID_UA_TYPE_GYROPLANE = 3,  // Gyroplane. 
    MAV_ODID_UA_TYPE_HYBRID_LIFT = 4,  // VTOL (Vertical Take-Off and Landing). Fixed wing aircraft that can take off vertically. 
    MAV_ODID_UA_TYPE_ORNITHOPTER = 5,  // Ornithopter. 
    MAV_ODID_UA_TYPE_GLIDER = 6,  // Glider. 
    MAV_ODID_UA_TYPE_KITE = 7,  // Kite. 
    MAV_ODID_UA_TYPE_FREE_BALLOON = 8,  // Free Balloon. 
    MAV_ODID_UA_TYPE_CAPTIVE_BALLOON = 9,  // Captive Balloon. 
    MAV_ODID_UA_TYPE_AIRSHIP = 10,  // Airship. E.g. a blimp. 
    MAV_ODID_UA_TYPE_FREE_FALL_PARACHUTE = 11,  // Free Fall/Parachute (unpowered). 
    MAV_ODID_UA_TYPE_ROCKET = 12,  // Rocket. 
    MAV_ODID_UA_TYPE_TETHERED_POWERED_AIRCRAFT = 13,  // Tethered powered aircraft. 
    MAV_ODID_UA_TYPE_GROUND_OBSTACLE = 14,  // Ground Obstacle. 
    MAV_ODID_UA_TYPE_OTHER = 15,  // Other type of aircraft not listed earlier. 
    MAV_ODID_UA_TYPE_ENUM_END = 16,  // end marker
} MAV_ODID_UA_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_ODID_STATUS
#define FASTMAVLINK_HAS_ENUM_MAV_ODID_STATUS
typedef enum MAV_ODID_STATUS {
    MAV_ODID_STATUS_UNDECLARED = 0,  // The status of the (UA) Unmanned Aircraft is undefined. 
    MAV_ODID_STATUS_GROUND = 1,  // The UA is on the ground. 
    MAV_ODID_STATUS_AIRBORNE = 2,  // The UA is in the air. 
    MAV_ODID_STATUS_EMERGENCY = 3,  // The UA is having an emergency. 
    MAV_ODID_STATUS_REMOTE_ID_SYSTEM_FAILURE = 4,  // The remote ID system is failing or unreliable in some way. 
    MAV_ODID_STATUS_ENUM_END = 5,  // end marker
} MAV_ODID_STATUS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_ODID_HEIGHT_REF
#define FASTMAVLINK_HAS_ENUM_MAV_ODID_HEIGHT_REF
typedef enum MAV_ODID_HEIGHT_REF {
    MAV_ODID_HEIGHT_REF_OVER_TAKEOFF = 0,  // The height field is relative to the take-off location. 
    MAV_ODID_HEIGHT_REF_OVER_GROUND = 1,  // The height field is relative to ground. 
    MAV_ODID_HEIGHT_REF_ENUM_END = 2,  // end marker
} MAV_ODID_HEIGHT_REF;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_ODID_HOR_ACC
#define FASTMAVLINK_HAS_ENUM_MAV_ODID_HOR_ACC
typedef enum MAV_ODID_HOR_ACC {
    MAV_ODID_HOR_ACC_UNKNOWN = 0,  // The horizontal accuracy is unknown. 
    MAV_ODID_HOR_ACC_10NM = 1,  // The horizontal accuracy is smaller than 10 Nautical Miles. 18.52 km. 
    MAV_ODID_HOR_ACC_4NM = 2,  // The horizontal accuracy is smaller than 4 Nautical Miles. 7.408 km. 
    MAV_ODID_HOR_ACC_2NM = 3,  // The horizontal accuracy is smaller than 2 Nautical Miles. 3.704 km. 
    MAV_ODID_HOR_ACC_1NM = 4,  // The horizontal accuracy is smaller than 1 Nautical Miles. 1.852 km. 
    MAV_ODID_HOR_ACC_0_5NM = 5,  // The horizontal accuracy is smaller than 0.5 Nautical Miles. 926 m. 
    MAV_ODID_HOR_ACC_0_3NM = 6,  // The horizontal accuracy is smaller than 0.3 Nautical Miles. 555.6 m. 
    MAV_ODID_HOR_ACC_0_1NM = 7,  // The horizontal accuracy is smaller than 0.1 Nautical Miles. 185.2 m. 
    MAV_ODID_HOR_ACC_0_05NM = 8,  // The horizontal accuracy is smaller than 0.05 Nautical Miles. 92.6 m. 
    MAV_ODID_HOR_ACC_30_METER = 9,  // The horizontal accuracy is smaller than 30 meter. 
    MAV_ODID_HOR_ACC_10_METER = 10,  // The horizontal accuracy is smaller than 10 meter. 
    MAV_ODID_HOR_ACC_3_METER = 11,  // The horizontal accuracy is smaller than 3 meter. 
    MAV_ODID_HOR_ACC_1_METER = 12,  // The horizontal accuracy is smaller than 1 meter. 
    MAV_ODID_HOR_ACC_ENUM_END = 13,  // end marker
} MAV_ODID_HOR_ACC;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_ODID_VER_ACC
#define FASTMAVLINK_HAS_ENUM_MAV_ODID_VER_ACC
typedef enum MAV_ODID_VER_ACC {
    MAV_ODID_VER_ACC_UNKNOWN = 0,  // The vertical accuracy is unknown. 
    MAV_ODID_VER_ACC_150_METER = 1,  // The vertical accuracy is smaller than 150 meter. 
    MAV_ODID_VER_ACC_45_METER = 2,  // The vertical accuracy is smaller than 45 meter. 
    MAV_ODID_VER_ACC_25_METER = 3,  // The vertical accuracy is smaller than 25 meter. 
    MAV_ODID_VER_ACC_10_METER = 4,  // The vertical accuracy is smaller than 10 meter. 
    MAV_ODID_VER_ACC_3_METER = 5,  // The vertical accuracy is smaller than 3 meter. 
    MAV_ODID_VER_ACC_1_METER = 6,  // The vertical accuracy is smaller than 1 meter. 
    MAV_ODID_VER_ACC_ENUM_END = 7,  // end marker
} MAV_ODID_VER_ACC;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_ODID_SPEED_ACC
#define FASTMAVLINK_HAS_ENUM_MAV_ODID_SPEED_ACC
typedef enum MAV_ODID_SPEED_ACC {
    MAV_ODID_SPEED_ACC_UNKNOWN = 0,  // The speed accuracy is unknown. 
    MAV_ODID_SPEED_ACC_10_METERS_PER_SECOND = 1,  // The speed accuracy is smaller than 10 meters per second. 
    MAV_ODID_SPEED_ACC_3_METERS_PER_SECOND = 2,  // The speed accuracy is smaller than 3 meters per second. 
    MAV_ODID_SPEED_ACC_1_METERS_PER_SECOND = 3,  // The speed accuracy is smaller than 1 meters per second. 
    MAV_ODID_SPEED_ACC_0_3_METERS_PER_SECOND = 4,  // The speed accuracy is smaller than 0.3 meters per second. 
    MAV_ODID_SPEED_ACC_ENUM_END = 5,  // end marker
} MAV_ODID_SPEED_ACC;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_ODID_TIME_ACC
#define FASTMAVLINK_HAS_ENUM_MAV_ODID_TIME_ACC
typedef enum MAV_ODID_TIME_ACC {
    MAV_ODID_TIME_ACC_UNKNOWN = 0,  // The timestamp accuracy is unknown. 
    MAV_ODID_TIME_ACC_0_1_SECOND = 1,  // The timestamp accuracy is smaller than or equal to 0.1 second. 
    MAV_ODID_TIME_ACC_0_2_SECOND = 2,  // The timestamp accuracy is smaller than or equal to 0.2 second. 
    MAV_ODID_TIME_ACC_0_3_SECOND = 3,  // The timestamp accuracy is smaller than or equal to 0.3 second. 
    MAV_ODID_TIME_ACC_0_4_SECOND = 4,  // The timestamp accuracy is smaller than or equal to 0.4 second. 
    MAV_ODID_TIME_ACC_0_5_SECOND = 5,  // The timestamp accuracy is smaller than or equal to 0.5 second. 
    MAV_ODID_TIME_ACC_0_6_SECOND = 6,  // The timestamp accuracy is smaller than or equal to 0.6 second. 
    MAV_ODID_TIME_ACC_0_7_SECOND = 7,  // The timestamp accuracy is smaller than or equal to 0.7 second. 
    MAV_ODID_TIME_ACC_0_8_SECOND = 8,  // The timestamp accuracy is smaller than or equal to 0.8 second. 
    MAV_ODID_TIME_ACC_0_9_SECOND = 9,  // The timestamp accuracy is smaller than or equal to 0.9 second. 
    MAV_ODID_TIME_ACC_1_0_SECOND = 10,  // The timestamp accuracy is smaller than or equal to 1.0 second. 
    MAV_ODID_TIME_ACC_1_1_SECOND = 11,  // The timestamp accuracy is smaller than or equal to 1.1 second. 
    MAV_ODID_TIME_ACC_1_2_SECOND = 12,  // The timestamp accuracy is smaller than or equal to 1.2 second. 
    MAV_ODID_TIME_ACC_1_3_SECOND = 13,  // The timestamp accuracy is smaller than or equal to 1.3 second. 
    MAV_ODID_TIME_ACC_1_4_SECOND = 14,  // The timestamp accuracy is smaller than or equal to 1.4 second. 
    MAV_ODID_TIME_ACC_1_5_SECOND = 15,  // The timestamp accuracy is smaller than or equal to 1.5 second. 
    MAV_ODID_TIME_ACC_ENUM_END = 16,  // end marker
} MAV_ODID_TIME_ACC;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_ODID_AUTH_TYPE
#define FASTMAVLINK_HAS_ENUM_MAV_ODID_AUTH_TYPE
typedef enum MAV_ODID_AUTH_TYPE {
    MAV_ODID_AUTH_TYPE_NONE = 0,  // No authentication type is specified. 
    MAV_ODID_AUTH_TYPE_UAS_ID_SIGNATURE = 1,  // Signature for the UAS (Unmanned Aircraft System) ID. 
    MAV_ODID_AUTH_TYPE_OPERATOR_ID_SIGNATURE = 2,  // Signature for the Operator ID. 
    MAV_ODID_AUTH_TYPE_MESSAGE_SET_SIGNATURE = 3,  // Signature for the entire message set. 
    MAV_ODID_AUTH_TYPE_NETWORK_REMOTE_ID = 4,  // Authentication is provided by Network Remote ID. 
    MAV_ODID_AUTH_TYPE_SPECIFIC_AUTHENTICATION = 5,  // The exact authentication type is indicated by the first byte of authentication_data and these type values are managed by ICAO. 
    MAV_ODID_AUTH_TYPE_ENUM_END = 6,  // end marker
} MAV_ODID_AUTH_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_ODID_DESC_TYPE
#define FASTMAVLINK_HAS_ENUM_MAV_ODID_DESC_TYPE
typedef enum MAV_ODID_DESC_TYPE {
    MAV_ODID_DESC_TYPE_TEXT = 0,  // Optional free-form text description of the purpose of the flight. 
    MAV_ODID_DESC_TYPE_EMERGENCY = 1,  // Optional additional clarification when status == MAV_ODID_STATUS_EMERGENCY. 
    MAV_ODID_DESC_TYPE_EXTENDED_STATUS = 2,  // Optional additional clarification when status != MAV_ODID_STATUS_EMERGENCY. 
    MAV_ODID_DESC_TYPE_ENUM_END = 3,  // end marker
} MAV_ODID_DESC_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_ODID_OPERATOR_LOCATION_TYPE
#define FASTMAVLINK_HAS_ENUM_MAV_ODID_OPERATOR_LOCATION_TYPE
typedef enum MAV_ODID_OPERATOR_LOCATION_TYPE {
    MAV_ODID_OPERATOR_LOCATION_TYPE_TAKEOFF = 0,  // The location/altitude of the operator is the same as the take-off location. 
    MAV_ODID_OPERATOR_LOCATION_TYPE_LIVE_GNSS = 1,  // The location/altitude of the operator is dynamic. E.g. based on live GNSS data. 
    MAV_ODID_OPERATOR_LOCATION_TYPE_FIXED = 2,  // The location/altitude of the operator are fixed values. 
    MAV_ODID_OPERATOR_LOCATION_TYPE_ENUM_END = 3,  // end marker
} MAV_ODID_OPERATOR_LOCATION_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_ODID_CLASSIFICATION_TYPE
#define FASTMAVLINK_HAS_ENUM_MAV_ODID_CLASSIFICATION_TYPE
typedef enum MAV_ODID_CLASSIFICATION_TYPE {
    MAV_ODID_CLASSIFICATION_TYPE_UNDECLARED = 0,  // The classification type for the UA is undeclared. 
    MAV_ODID_CLASSIFICATION_TYPE_EU = 1,  // The classification type for the UA follows EU (European Union) specifications. 
    MAV_ODID_CLASSIFICATION_TYPE_ENUM_END = 2,  // end marker
} MAV_ODID_CLASSIFICATION_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_ODID_CATEGORY_EU
#define FASTMAVLINK_HAS_ENUM_MAV_ODID_CATEGORY_EU
typedef enum MAV_ODID_CATEGORY_EU {
    MAV_ODID_CATEGORY_EU_UNDECLARED = 0,  // The category for the UA, according to the EU specification, is undeclared. 
    MAV_ODID_CATEGORY_EU_OPEN = 1,  // The category for the UA, according to the EU specification, is the Open category. 
    MAV_ODID_CATEGORY_EU_SPECIFIC = 2,  // The category for the UA, according to the EU specification, is the Specific category. 
    MAV_ODID_CATEGORY_EU_CERTIFIED = 3,  // The category for the UA, according to the EU specification, is the Certified category. 
    MAV_ODID_CATEGORY_EU_ENUM_END = 4,  // end marker
} MAV_ODID_CATEGORY_EU;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_ODID_CLASS_EU
#define FASTMAVLINK_HAS_ENUM_MAV_ODID_CLASS_EU
typedef enum MAV_ODID_CLASS_EU {
    MAV_ODID_CLASS_EU_UNDECLARED = 0,  // The class for the UA, according to the EU specification, is undeclared. 
    MAV_ODID_CLASS_EU_CLASS_0 = 1,  // The class for the UA, according to the EU specification, is Class 0. 
    MAV_ODID_CLASS_EU_CLASS_1 = 2,  // The class for the UA, according to the EU specification, is Class 1. 
    MAV_ODID_CLASS_EU_CLASS_2 = 3,  // The class for the UA, according to the EU specification, is Class 2. 
    MAV_ODID_CLASS_EU_CLASS_3 = 4,  // The class for the UA, according to the EU specification, is Class 3. 
    MAV_ODID_CLASS_EU_CLASS_4 = 5,  // The class for the UA, according to the EU specification, is Class 4. 
    MAV_ODID_CLASS_EU_CLASS_5 = 6,  // The class for the UA, according to the EU specification, is Class 5. 
    MAV_ODID_CLASS_EU_CLASS_6 = 7,  // The class for the UA, according to the EU specification, is Class 6. 
    MAV_ODID_CLASS_EU_ENUM_END = 8,  // end marker
} MAV_ODID_CLASS_EU;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_ODID_OPERATOR_ID_TYPE
#define FASTMAVLINK_HAS_ENUM_MAV_ODID_OPERATOR_ID_TYPE
typedef enum MAV_ODID_OPERATOR_ID_TYPE {
    MAV_ODID_OPERATOR_ID_TYPE_CAA = 0,  // CAA (Civil Aviation Authority) registered operator ID. 
    MAV_ODID_OPERATOR_ID_TYPE_ENUM_END = 1,  // end marker
} MAV_ODID_OPERATOR_ID_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_ODID_ARM_STATUS
#define FASTMAVLINK_HAS_ENUM_MAV_ODID_ARM_STATUS
typedef enum MAV_ODID_ARM_STATUS {
    MAV_ODID_ARM_STATUS_GOOD_TO_ARM = 0,  // Passing arming checks. 
    MAV_ODID_ARM_STATUS_PRE_ARM_FAIL_GENERIC = 1,  // Generic arming failure, see error string for details. 
    MAV_ODID_ARM_STATUS_ENUM_END = 2,  // end marker
} MAV_ODID_ARM_STATUS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_TUNE_FORMAT
#define FASTMAVLINK_HAS_ENUM_TUNE_FORMAT
typedef enum TUNE_FORMAT {
    TUNE_FORMAT_QBASIC1_1 = 1,  // Format is QBasic 1.1 Play: https://www.qbasic.net/en/reference/qb11/Statement/PLAY-006.htm. 
    TUNE_FORMAT_MML_MODERN = 2,  // Format is Modern Music Markup Language (MML): https://en.wikipedia.org/wiki/Music_Macro_Language#Modern_MML. 
    TUNE_FORMAT_ENUM_END = 3,  // end marker
} TUNE_FORMAT;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_AIS_TYPE
#define FASTMAVLINK_HAS_ENUM_AIS_TYPE
typedef enum AIS_TYPE {
    AIS_TYPE_UNKNOWN = 0,  // Not available (default). 
    AIS_TYPE_RESERVED_1 = 1,  //  
    AIS_TYPE_RESERVED_2 = 2,  //  
    AIS_TYPE_RESERVED_3 = 3,  //  
    AIS_TYPE_RESERVED_4 = 4,  //  
    AIS_TYPE_RESERVED_5 = 5,  //  
    AIS_TYPE_RESERVED_6 = 6,  //  
    AIS_TYPE_RESERVED_7 = 7,  //  
    AIS_TYPE_RESERVED_8 = 8,  //  
    AIS_TYPE_RESERVED_9 = 9,  //  
    AIS_TYPE_RESERVED_10 = 10,  //  
    AIS_TYPE_RESERVED_11 = 11,  //  
    AIS_TYPE_RESERVED_12 = 12,  //  
    AIS_TYPE_RESERVED_13 = 13,  //  
    AIS_TYPE_RESERVED_14 = 14,  //  
    AIS_TYPE_RESERVED_15 = 15,  //  
    AIS_TYPE_RESERVED_16 = 16,  //  
    AIS_TYPE_RESERVED_17 = 17,  //  
    AIS_TYPE_RESERVED_18 = 18,  //  
    AIS_TYPE_RESERVED_19 = 19,  //  
    AIS_TYPE_WIG = 20,  // Wing In Ground effect. 
    AIS_TYPE_WIG_HAZARDOUS_A = 21,  //  
    AIS_TYPE_WIG_HAZARDOUS_B = 22,  //  
    AIS_TYPE_WIG_HAZARDOUS_C = 23,  //  
    AIS_TYPE_WIG_HAZARDOUS_D = 24,  //  
    AIS_TYPE_WIG_RESERVED_1 = 25,  //  
    AIS_TYPE_WIG_RESERVED_2 = 26,  //  
    AIS_TYPE_WIG_RESERVED_3 = 27,  //  
    AIS_TYPE_WIG_RESERVED_4 = 28,  //  
    AIS_TYPE_WIG_RESERVED_5 = 29,  //  
    AIS_TYPE_FISHING = 30,  //  
    AIS_TYPE_TOWING = 31,  //  
    AIS_TYPE_TOWING_LARGE = 32,  // Towing: length exceeds 200m or breadth exceeds 25m. 
    AIS_TYPE_DREDGING = 33,  // Dredging or other underwater ops. 
    AIS_TYPE_DIVING = 34,  //  
    AIS_TYPE_MILITARY = 35,  //  
    AIS_TYPE_SAILING = 36,  //  
    AIS_TYPE_PLEASURE = 37,  //  
    AIS_TYPE_RESERVED_20 = 38,  //  
    AIS_TYPE_RESERVED_21 = 39,  //  
    AIS_TYPE_HSC = 40,  // High Speed Craft. 
    AIS_TYPE_HSC_HAZARDOUS_A = 41,  //  
    AIS_TYPE_HSC_HAZARDOUS_B = 42,  //  
    AIS_TYPE_HSC_HAZARDOUS_C = 43,  //  
    AIS_TYPE_HSC_HAZARDOUS_D = 44,  //  
    AIS_TYPE_HSC_RESERVED_1 = 45,  //  
    AIS_TYPE_HSC_RESERVED_2 = 46,  //  
    AIS_TYPE_HSC_RESERVED_3 = 47,  //  
    AIS_TYPE_HSC_RESERVED_4 = 48,  //  
    AIS_TYPE_HSC_UNKNOWN = 49,  //  
    AIS_TYPE_PILOT = 50,  //  
    AIS_TYPE_SAR = 51,  // Search And Rescue vessel. 
    AIS_TYPE_TUG = 52,  //  
    AIS_TYPE_PORT_TENDER = 53,  //  
    AIS_TYPE_ANTI_POLLUTION = 54,  // Anti-pollution equipment. 
    AIS_TYPE_LAW_ENFORCEMENT = 55,  //  
    AIS_TYPE_SPARE_LOCAL_1 = 56,  //  
    AIS_TYPE_SPARE_LOCAL_2 = 57,  //  
    AIS_TYPE_MEDICAL_TRANSPORT = 58,  //  
    AIS_TYPE_NONECOMBATANT = 59,  // Noncombatant ship according to RR Resolution No. 18. 
    AIS_TYPE_PASSENGER = 60,  //  
    AIS_TYPE_PASSENGER_HAZARDOUS_A = 61,  //  
    AIS_TYPE_PASSENGER_HAZARDOUS_B = 62,  //  
    AIS_TYPE_PASSENGER_HAZARDOUS_C = 63,  //  
    AIS_TYPE_PASSENGER_HAZARDOUS_D = 64,  //  
    AIS_TYPE_PASSENGER_RESERVED_1 = 65,  //  
    AIS_TYPE_PASSENGER_RESERVED_2 = 66,  //  
    AIS_TYPE_PASSENGER_RESERVED_3 = 67,  //  
    AIS_TYPE_PASSENGER_RESERVED_4 = 68,  //  
    AIS_TYPE_PASSENGER_UNKNOWN = 69,  //  
    AIS_TYPE_CARGO = 70,  //  
    AIS_TYPE_CARGO_HAZARDOUS_A = 71,  //  
    AIS_TYPE_CARGO_HAZARDOUS_B = 72,  //  
    AIS_TYPE_CARGO_HAZARDOUS_C = 73,  //  
    AIS_TYPE_CARGO_HAZARDOUS_D = 74,  //  
    AIS_TYPE_CARGO_RESERVED_1 = 75,  //  
    AIS_TYPE_CARGO_RESERVED_2 = 76,  //  
    AIS_TYPE_CARGO_RESERVED_3 = 77,  //  
    AIS_TYPE_CARGO_RESERVED_4 = 78,  //  
    AIS_TYPE_CARGO_UNKNOWN = 79,  //  
    AIS_TYPE_TANKER = 80,  //  
    AIS_TYPE_TANKER_HAZARDOUS_A = 81,  //  
    AIS_TYPE_TANKER_HAZARDOUS_B = 82,  //  
    AIS_TYPE_TANKER_HAZARDOUS_C = 83,  //  
    AIS_TYPE_TANKER_HAZARDOUS_D = 84,  //  
    AIS_TYPE_TANKER_RESERVED_1 = 85,  //  
    AIS_TYPE_TANKER_RESERVED_2 = 86,  //  
    AIS_TYPE_TANKER_RESERVED_3 = 87,  //  
    AIS_TYPE_TANKER_RESERVED_4 = 88,  //  
    AIS_TYPE_TANKER_UNKNOWN = 89,  //  
    AIS_TYPE_OTHER = 90,  //  
    AIS_TYPE_OTHER_HAZARDOUS_A = 91,  //  
    AIS_TYPE_OTHER_HAZARDOUS_B = 92,  //  
    AIS_TYPE_OTHER_HAZARDOUS_C = 93,  //  
    AIS_TYPE_OTHER_HAZARDOUS_D = 94,  //  
    AIS_TYPE_OTHER_RESERVED_1 = 95,  //  
    AIS_TYPE_OTHER_RESERVED_2 = 96,  //  
    AIS_TYPE_OTHER_RESERVED_3 = 97,  //  
    AIS_TYPE_OTHER_RESERVED_4 = 98,  //  
    AIS_TYPE_OTHER_UNKNOWN = 99,  //  
    AIS_TYPE_ENUM_END = 100,  // end marker
} AIS_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_AIS_NAV_STATUS
#define FASTMAVLINK_HAS_ENUM_AIS_NAV_STATUS
typedef enum AIS_NAV_STATUS {
    UNDER_WAY = 0,  // Under way using engine. 
    AIS_NAV_ANCHORED = 1,  //  
    AIS_NAV_UN_COMMANDED = 2,  //  
    AIS_NAV_RESTRICTED_MANOEUVERABILITY = 3,  //  
    AIS_NAV_DRAUGHT_CONSTRAINED = 4,  //  
    AIS_NAV_MOORED = 5,  //  
    AIS_NAV_AGROUND = 6,  //  
    AIS_NAV_FISHING = 7,  //  
    AIS_NAV_SAILING = 8,  //  
    AIS_NAV_RESERVED_HSC = 9,  //  
    AIS_NAV_RESERVED_WIG = 10,  //  
    AIS_NAV_RESERVED_1 = 11,  //  
    AIS_NAV_RESERVED_2 = 12,  //  
    AIS_NAV_RESERVED_3 = 13,  //  
    AIS_NAV_AIS_SART = 14,  // Search And Rescue Transponder. 
    AIS_NAV_UNKNOWN = 15,  // Not available (default). 
    AIS_NAV_STATUS_ENUM_END = 16,  // end marker
} AIS_NAV_STATUS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_AIS_FLAGS
#define FASTMAVLINK_HAS_ENUM_AIS_FLAGS
typedef enum AIS_FLAGS {
    AIS_FLAGS_POSITION_ACCURACY = 1,  // 1 = Position accuracy less than 10m, 0 = position accuracy greater than 10m. 
    AIS_FLAGS_VALID_COG = 2,  //  
    AIS_FLAGS_VALID_VELOCITY = 4,  //  
    AIS_FLAGS_HIGH_VELOCITY = 8,  // 1 = Velocity over 52.5765m/s (102.2 knots) 
    AIS_FLAGS_VALID_TURN_RATE = 16,  //  
    AIS_FLAGS_TURN_RATE_SIGN_ONLY = 32,  // Only the sign of the returned turn rate value is valid, either greater than 5deg/30s or less than -5deg/30s 
    AIS_FLAGS_VALID_DIMENSIONS = 64,  //  
    AIS_FLAGS_LARGE_BOW_DIMENSION = 128,  // Distance to bow is larger than 511m 
    AIS_FLAGS_LARGE_STERN_DIMENSION = 256,  // Distance to stern is larger than 511m 
    AIS_FLAGS_LARGE_PORT_DIMENSION = 512,  // Distance to port side is larger than 63m 
    AIS_FLAGS_LARGE_STARBOARD_DIMENSION = 1024,  // Distance to starboard side is larger than 63m 
    AIS_FLAGS_VALID_CALLSIGN = 2048,  //  
    AIS_FLAGS_VALID_NAME = 4096,  //  
    AIS_FLAGS_ENUM_END = 4097,  // end marker
} AIS_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_FAILURE_UNIT
#define FASTMAVLINK_HAS_ENUM_FAILURE_UNIT
typedef enum FAILURE_UNIT {
    FAILURE_UNIT_SENSOR_GYRO = 0,  //  
    FAILURE_UNIT_SENSOR_ACCEL = 1,  //  
    FAILURE_UNIT_SENSOR_MAG = 2,  //  
    FAILURE_UNIT_SENSOR_BARO = 3,  //  
    FAILURE_UNIT_SENSOR_GPS = 4,  //  
    FAILURE_UNIT_SENSOR_OPTICAL_FLOW = 5,  //  
    FAILURE_UNIT_SENSOR_VIO = 6,  //  
    FAILURE_UNIT_SENSOR_DISTANCE_SENSOR = 7,  //  
    FAILURE_UNIT_SENSOR_AIRSPEED = 8,  //  
    FAILURE_UNIT_SYSTEM_BATTERY = 100,  //  
    FAILURE_UNIT_SYSTEM_MOTOR = 101,  //  
    FAILURE_UNIT_SYSTEM_SERVO = 102,  //  
    FAILURE_UNIT_SYSTEM_AVOIDANCE = 103,  //  
    FAILURE_UNIT_SYSTEM_RC_SIGNAL = 104,  //  
    FAILURE_UNIT_SYSTEM_MAVLINK_SIGNAL = 105,  //  
    FAILURE_UNIT_ENUM_END = 106,  // end marker
} FAILURE_UNIT;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_FAILURE_TYPE
#define FASTMAVLINK_HAS_ENUM_FAILURE_TYPE
typedef enum FAILURE_TYPE {
    FAILURE_TYPE_OK = 0,  // No failure injected, used to reset a previous failure. 
    FAILURE_TYPE_OFF = 1,  // Sets unit off, so completely non-responsive. 
    FAILURE_TYPE_STUCK = 2,  // Unit is stuck e.g. keeps reporting the same value. 
    FAILURE_TYPE_GARBAGE = 3,  // Unit is reporting complete garbage. 
    FAILURE_TYPE_WRONG = 4,  // Unit is consistently wrong. 
    FAILURE_TYPE_SLOW = 5,  // Unit is slow, so e.g. reporting at slower than expected rate. 
    FAILURE_TYPE_DELAYED = 6,  // Data of unit is delayed in time. 
    FAILURE_TYPE_INTERMITTENT = 7,  // Unit is sometimes working, sometimes not. 
    FAILURE_TYPE_ENUM_END = 8,  // end marker
} FAILURE_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_NAV_VTOL_LAND_OPTIONS
#define FASTMAVLINK_HAS_ENUM_NAV_VTOL_LAND_OPTIONS
typedef enum NAV_VTOL_LAND_OPTIONS {
    NAV_VTOL_LAND_OPTIONS_DEFAULT = 0,  // Default autopilot landing behaviour. 
    NAV_VTOL_LAND_OPTIONS_FW_DESCENT = 1,  // Descend in fixed wing mode, transitioning to multicopter mode for vertical landing when close to the ground.          The fixed wing descent pattern is at the discretion of the vehicle (e.g. transition altitude, loiter direction, radius, and speed, etc.).         
    NAV_VTOL_LAND_OPTIONS_HOVER_DESCENT = 2,  // Land in multicopter mode on reaching the landing coordinates (the whole landing is by "hover descent"). 
    NAV_VTOL_LAND_OPTIONS_ENUM_END = 3,  // end marker
} NAV_VTOL_LAND_OPTIONS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_WINCH_STATUS_FLAG
#define FASTMAVLINK_HAS_ENUM_MAV_WINCH_STATUS_FLAG
typedef enum MAV_WINCH_STATUS_FLAG {
    MAV_WINCH_STATUS_HEALTHY = 1,  // Winch is healthy 
    MAV_WINCH_STATUS_FULLY_RETRACTED = 2,  // Winch line is fully retracted 
    MAV_WINCH_STATUS_MOVING = 4,  // Winch motor is moving 
    MAV_WINCH_STATUS_CLUTCH_ENGAGED = 8,  // Winch clutch is engaged allowing motor to move freely. 
    MAV_WINCH_STATUS_LOCKED = 16,  // Winch is locked by locking mechanism. 
    MAV_WINCH_STATUS_DROPPING = 32,  // Winch is gravity dropping payload. 
    MAV_WINCH_STATUS_ARRESTING = 64,  // Winch is arresting payload descent. 
    MAV_WINCH_STATUS_GROUND_SENSE = 128,  // Winch is using torque measurements to sense the ground. 
    MAV_WINCH_STATUS_RETRACTING = 256,  // Winch is returning to the fully retracted position. 
    MAV_WINCH_STATUS_REDELIVER = 512,  // Winch is redelivering the payload. This is a failover state if the line tension goes above a threshold during RETRACTING. 
    MAV_WINCH_STATUS_ABANDON_LINE = 1024,  // Winch is abandoning the line and possibly payload. Winch unspools the entire calculated line length. This is a failover state from REDELIVER if the number of attempts exceeds a threshold. 
    MAV_WINCH_STATUS_LOCKING = 2048,  // Winch is engaging the locking mechanism. 
    MAV_WINCH_STATUS_LOAD_LINE = 4096,  // Winch is spooling on line. 
    MAV_WINCH_STATUS_LOAD_PAYLOAD = 8192,  // Winch is loading a payload. 
    MAV_WINCH_STATUS_FLAG_ENUM_END = 8193,  // end marker
} MAV_WINCH_STATUS_FLAG;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAG_CAL_STATUS
#define FASTMAVLINK_HAS_ENUM_MAG_CAL_STATUS
typedef enum MAG_CAL_STATUS {
    MAG_CAL_NOT_STARTED = 0,  //  
    MAG_CAL_WAITING_TO_START = 1,  //  
    MAG_CAL_RUNNING_STEP_ONE = 2,  //  
    MAG_CAL_RUNNING_STEP_TWO = 3,  //  
    MAG_CAL_SUCCESS = 4,  //  
    MAG_CAL_FAILED = 5,  //  
    MAG_CAL_BAD_ORIENTATION = 6,  //  
    MAG_CAL_BAD_RADIUS = 7,  //  
    MAG_CAL_STATUS_ENUM_END = 8,  // end marker
} MAG_CAL_STATUS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_EVENT_ERROR_REASON
#define FASTMAVLINK_HAS_ENUM_MAV_EVENT_ERROR_REASON
typedef enum MAV_EVENT_ERROR_REASON {
    MAV_EVENT_ERROR_REASON_UNAVAILABLE = 0,  // The requested event is not available (anymore). 
    MAV_EVENT_ERROR_REASON_ENUM_END = 1,  // end marker
} MAV_EVENT_ERROR_REASON;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_EVENT_CURRENT_SEQUENCE_FLAGS
#define FASTMAVLINK_HAS_ENUM_MAV_EVENT_CURRENT_SEQUENCE_FLAGS
typedef enum MAV_EVENT_CURRENT_SEQUENCE_FLAGS {
    MAV_EVENT_CURRENT_SEQUENCE_FLAGS_RESET = 1,  // A sequence reset has happened (e.g. vehicle reboot). 
    MAV_EVENT_CURRENT_SEQUENCE_FLAGS_ENUM_END = 2,  // end marker
} MAV_EVENT_CURRENT_SEQUENCE_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_HIL_SENSOR_UPDATED_FLAGS
#define FASTMAVLINK_HAS_ENUM_HIL_SENSOR_UPDATED_FLAGS
typedef enum HIL_SENSOR_UPDATED_FLAGS {
    HIL_SENSOR_UPDATED_NONE = 0,  // None of the fields in HIL_SENSOR have been updated 
    HIL_SENSOR_UPDATED_XACC = 1,  // The value in the xacc field has been updated 
    HIL_SENSOR_UPDATED_YACC = 2,  // The value in the yacc field has been updated 
    HIL_SENSOR_UPDATED_ZACC = 4,  // The value in the zacc field has been updated 
    HIL_SENSOR_UPDATED_XGYRO = 8,  // The value in the xgyro field has been updated 
    HIL_SENSOR_UPDATED_YGYRO = 16,  // The value in the ygyro field has been updated 
    HIL_SENSOR_UPDATED_ZGYRO = 32,  // The value in the zgyro field has been updated 
    HIL_SENSOR_UPDATED_XMAG = 64,  // The value in the xmag field has been updated 
    HIL_SENSOR_UPDATED_YMAG = 128,  // The value in the ymag field has been updated 
    HIL_SENSOR_UPDATED_ZMAG = 256,  // The value in the zmag field has been updated 
    HIL_SENSOR_UPDATED_ABS_PRESSURE = 512,  // The value in the abs_pressure field has been updated 
    HIL_SENSOR_UPDATED_DIFF_PRESSURE = 1024,  // The value in the diff_pressure field has been updated 
    HIL_SENSOR_UPDATED_PRESSURE_ALT = 2048,  // The value in the pressure_alt field has been updated 
    HIL_SENSOR_UPDATED_TEMPERATURE = 4096,  // The value in the temperature field has been updated 
    HIL_SENSOR_UPDATED_RESET = 2147483648,  // Full reset of attitude/position/velocities/etc was performed in sim (Bit 31). 
    HIL_SENSOR_UPDATED_FLAGS_ENUM_END = 2147483649,  // end marker
} HIL_SENSOR_UPDATED_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_HIGHRES_IMU_UPDATED_FLAGS
#define FASTMAVLINK_HAS_ENUM_HIGHRES_IMU_UPDATED_FLAGS
typedef enum HIGHRES_IMU_UPDATED_FLAGS {
    HIGHRES_IMU_UPDATED_NONE = 0,  // None of the fields in HIGHRES_IMU have been updated 
    HIGHRES_IMU_UPDATED_XACC = 1,  // The value in the xacc field has been updated 
    HIGHRES_IMU_UPDATED_YACC = 2,  // The value in the yacc field has been updated 
    HIGHRES_IMU_UPDATED_ZACC = 4,  // The value in the zacc field has been updated since 
    HIGHRES_IMU_UPDATED_XGYRO = 8,  // The value in the xgyro field has been updated 
    HIGHRES_IMU_UPDATED_YGYRO = 16,  // The value in the ygyro field has been updated 
    HIGHRES_IMU_UPDATED_ZGYRO = 32,  // The value in the zgyro field has been updated 
    HIGHRES_IMU_UPDATED_XMAG = 64,  // The value in the xmag field has been updated 
    HIGHRES_IMU_UPDATED_YMAG = 128,  // The value in the ymag field has been updated 
    HIGHRES_IMU_UPDATED_ZMAG = 256,  // The value in the zmag field has been updated 
    HIGHRES_IMU_UPDATED_ABS_PRESSURE = 512,  // The value in the abs_pressure field has been updated 
    HIGHRES_IMU_UPDATED_DIFF_PRESSURE = 1024,  // The value in the diff_pressure field has been updated 
    HIGHRES_IMU_UPDATED_PRESSURE_ALT = 2048,  // The value in the pressure_alt field has been updated 
    HIGHRES_IMU_UPDATED_TEMPERATURE = 4096,  // The value in the temperature field has been updated 
    HIGHRES_IMU_UPDATED_ALL = 65535,  // All fields in HIGHRES_IMU have been updated. 
    HIGHRES_IMU_UPDATED_FLAGS_ENUM_END = 65536,  // end marker
} HIGHRES_IMU_UPDATED_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_CAN_FILTER_OP
#define FASTMAVLINK_HAS_ENUM_CAN_FILTER_OP
typedef enum CAN_FILTER_OP {
    CAN_FILTER_REPLACE = 0,  //  
    CAN_FILTER_ADD = 1,  //  
    CAN_FILTER_REMOVE = 2,  //  
    CAN_FILTER_OP_ENUM_END = 3,  // end marker
} CAN_FILTER_OP;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_FTP_ERR
#define FASTMAVLINK_HAS_ENUM_MAV_FTP_ERR
typedef enum MAV_FTP_ERR {
    MAV_FTP_ERR_NONE = 0,  // None: No error 
    MAV_FTP_ERR_FAIL = 1,  // Fail: Unknown failure 
    MAV_FTP_ERR_FAILERRNO = 2,  // FailErrno: Command failed, Err number sent back in PayloadHeader.data[1].		This is a file-system error number understood by the server operating system. 
    MAV_FTP_ERR_INVALIDDATASIZE = 3,  // InvalidDataSize: Payload size is invalid 
    MAV_FTP_ERR_INVALIDSESSION = 4,  // InvalidSession: Session is not currently open 
    MAV_FTP_ERR_NOSESSIONSAVAILABLE = 5,  // NoSessionsAvailable: All available sessions are already in use 
    MAV_FTP_ERR_EOF = 6,  // EOF: Offset past end of file for ListDirectory and ReadFile commands 
    MAV_FTP_ERR_UNKNOWNCOMMAND = 7,  // UnknownCommand: Unknown command / opcode 
    MAV_FTP_ERR_FILEEXISTS = 8,  // FileExists: File/directory already exists 
    MAV_FTP_ERR_FILEPROTECTED = 9,  // FileProtected: File/directory is write protected 
    MAV_FTP_ERR_FILENOTFOUND = 10,  // FileNotFound: File/directory not found 
    MAV_FTP_ERR_ENUM_END = 11,  // end marker
} MAV_FTP_ERR;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_FTP_OPCODE
#define FASTMAVLINK_HAS_ENUM_MAV_FTP_OPCODE
typedef enum MAV_FTP_OPCODE {
    MAV_FTP_OPCODE_NONE = 0,  // None. Ignored, always ACKed 
    MAV_FTP_OPCODE_TERMINATESESSION = 1,  // TerminateSession: Terminates open Read session 
    MAV_FTP_OPCODE_RESETSESSION = 2,  // ResetSessions: Terminates all open read sessions 
    MAV_FTP_OPCODE_LISTDIRECTORY = 3,  // ListDirectory. List files and directories in path from offset 
    MAV_FTP_OPCODE_OPENFILERO = 4,  // OpenFileRO: Opens file at path for reading, returns session 
    MAV_FTP_OPCODE_READFILE = 5,  // ReadFile: Reads size bytes from offset in session 
    MAV_FTP_OPCODE_CREATEFILE = 6,  // CreateFile: Creates file at path for writing, returns session 
    MAV_FTP_OPCODE_WRITEFILE = 7,  // WriteFile: Writes size bytes to offset in session 
    MAV_FTP_OPCODE_REMOVEFILE = 8,  // RemoveFile: Remove file at path 
    MAV_FTP_OPCODE_CREATEDIRECTORY = 9,  // CreateDirectory: Creates directory at path 
    MAV_FTP_OPCODE_REMOVEDIRECTORY = 10,  // RemoveDirectory: Removes directory at path. The directory must be empty. 
    MAV_FTP_OPCODE_OPENFILEWO = 11,  // OpenFileWO: Opens file at path for writing, returns session 
    MAV_FTP_OPCODE_TRUNCATEFILE = 12,  // TruncateFile: Truncate file at path to offset length 
    MAV_FTP_OPCODE_RENAME = 13,  // Rename: Rename path1 to path2 
    MAV_FTP_OPCODE_CALCFILECRC = 14,  // CalcFileCRC32: Calculate CRC32 for file at path 
    MAV_FTP_OPCODE_BURSTREADFILE = 15,  // BurstReadFile: Burst download session file 
    MAV_FTP_OPCODE_ACK = 128,  // ACK: ACK response 
    MAV_FTP_OPCODE_NAK = 129,  // NAK: NAK response 
    MAV_FTP_OPCODE_ENUM_END = 130,  // end marker
} MAV_FTP_OPCODE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MISSION_STATE
#define FASTMAVLINK_HAS_ENUM_MISSION_STATE
typedef enum MISSION_STATE {
    MISSION_STATE_UNKNOWN = 0,  // The mission status reporting is not supported. 
    MISSION_STATE_NO_MISSION = 1,  // No mission on the vehicle. 
    MISSION_STATE_NOT_STARTED = 2,  // Mission has not started. This is the case after a mission has uploaded but not yet started executing. 
    MISSION_STATE_ACTIVE = 3,  // Mission is active, and will execute mission items when in auto mode. 
    MISSION_STATE_PAUSED = 4,  // Mission is paused when in auto mode. 
    MISSION_STATE_COMPLETE = 5,  // Mission has executed all mission items. 
    MISSION_STATE_ENUM_END = 6,  // end marker
} MISSION_STATE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_SAFETY_SWITCH_STATE
#define FASTMAVLINK_HAS_ENUM_SAFETY_SWITCH_STATE
typedef enum SAFETY_SWITCH_STATE {
    SAFETY_SWITCH_STATE_SAFE = 0,  // Safety switch is engaged and vehicle should be safe to approach. 
    SAFETY_SWITCH_STATE_DANGEROUS = 1,  // Safety switch is NOT engaged and motors, propellers and other actuators should be considered active. 
    SAFETY_SWITCH_STATE_ENUM_END = 2,  // end marker
} SAFETY_SWITCH_STATE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_ILLUMINATOR_MODE
#define FASTMAVLINK_HAS_ENUM_ILLUMINATOR_MODE
typedef enum ILLUMINATOR_MODE {
    ILLUMINATOR_MODE_UNKNOWN = 0,  // Illuminator mode is not specified/unknown 
    ILLUMINATOR_MODE_INTERNAL_CONTROL = 1,  // Illuminator behavior is controlled by MAV_CMD_DO_ILLUMINATOR_CONFIGURE settings 
    ILLUMINATOR_MODE_EXTERNAL_SYNC = 2,  // Illuminator behavior is controlled by external factors: e.g. an external hardware signal 
    ILLUMINATOR_MODE_ENUM_END = 3,  // end marker
} ILLUMINATOR_MODE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_ILLUMINATOR_ERROR_FLAGS
#define FASTMAVLINK_HAS_ENUM_ILLUMINATOR_ERROR_FLAGS
typedef enum ILLUMINATOR_ERROR_FLAGS {
    ILLUMINATOR_ERROR_FLAGS_THERMAL_THROTTLING = 1,  // Illuminator thermal throttling error. 
    ILLUMINATOR_ERROR_FLAGS_OVER_TEMPERATURE_SHUTDOWN = 2,  // Illuminator over temperature shutdown error. 
    ILLUMINATOR_ERROR_FLAGS_THERMISTOR_FAILURE = 4,  // Illuminator thermistor failure. 
    ILLUMINATOR_ERROR_FLAGS_ENUM_END = 5,  // end marker
} ILLUMINATOR_ERROR_FLAGS;
#endif

#endif // FASTMAVLINK_DO_NOT_INCLUDE_ENUMS


//------------------------------
//-- Message definitions
//------------------------------

#ifdef FASTMAVLINK_IGNORE_WADDRESSOFPACKEDMEMBER
  #if defined __GNUC__ && __GNUC__ >= 9
    #pragma GCC diagnostic push
    #pragma GCC diagnostic ignored "-Waddress-of-packed-member"
  #endif
#endif

#include "./mavlink_msg_sys_status.h"
#include "./mavlink_msg_system_time.h"
#include "./mavlink_msg_ping.h"
#include "./mavlink_msg_change_operator_control.h"
#include "./mavlink_msg_change_operator_control_ack.h"
#include "./mavlink_msg_auth_key.h"
#include "./mavlink_msg_link_node_status.h"
#include "./mavlink_msg_set_mode.h"
#include "./mavlink_msg_param_request_read.h"
#include "./mavlink_msg_param_request_list.h"
#include "./mavlink_msg_param_value.h"
#include "./mavlink_msg_param_set.h"
#include "./mavlink_msg_gps_raw_int.h"
#include "./mavlink_msg_gps_status.h"
#include "./mavlink_msg_scaled_imu.h"
#include "./mavlink_msg_raw_imu.h"
#include "./mavlink_msg_raw_pressure.h"
#include "./mavlink_msg_scaled_pressure.h"
#include "./mavlink_msg_attitude.h"
#include "./mavlink_msg_attitude_quaternion.h"
#include "./mavlink_msg_local_position_ned.h"
#include "./mavlink_msg_global_position_int.h"
#include "./mavlink_msg_rc_channels_scaled.h"
#include "./mavlink_msg_rc_channels_raw.h"
#include "./mavlink_msg_servo_output_raw.h"
#include "./mavlink_msg_mission_request_partial_list.h"
#include "./mavlink_msg_mission_write_partial_list.h"
#include "./mavlink_msg_mission_item.h"
#include "./mavlink_msg_mission_request.h"
#include "./mavlink_msg_mission_set_current.h"
#include "./mavlink_msg_mission_current.h"
#include "./mavlink_msg_mission_request_list.h"
#include "./mavlink_msg_mission_count.h"
#include "./mavlink_msg_mission_clear_all.h"
#include "./mavlink_msg_mission_item_reached.h"
#include "./mavlink_msg_mission_ack.h"
#include "./mavlink_msg_set_gps_global_origin.h"
#include "./mavlink_msg_gps_global_origin.h"
#include "./mavlink_msg_param_map_rc.h"
#include "./mavlink_msg_mission_request_int.h"
#include "./mavlink_msg_safety_set_allowed_area.h"
#include "./mavlink_msg_safety_allowed_area.h"
#include "./mavlink_msg_attitude_quaternion_cov.h"
#include "./mavlink_msg_nav_controller_output.h"
#include "./mavlink_msg_global_position_int_cov.h"
#include "./mavlink_msg_local_position_ned_cov.h"
#include "./mavlink_msg_rc_channels.h"
#include "./mavlink_msg_request_data_stream.h"
#include "./mavlink_msg_data_stream.h"
#include "./mavlink_msg_manual_control.h"
#include "./mavlink_msg_rc_channels_override.h"
#include "./mavlink_msg_mission_item_int.h"
#include "./mavlink_msg_vfr_hud.h"
#include "./mavlink_msg_command_int.h"
#include "./mavlink_msg_command_long.h"
#include "./mavlink_msg_command_ack.h"
#include "./mavlink_msg_command_cancel.h"
#include "./mavlink_msg_manual_setpoint.h"
#include "./mavlink_msg_set_attitude_target.h"
#include "./mavlink_msg_attitude_target.h"
#include "./mavlink_msg_set_position_target_local_ned.h"
#include "./mavlink_msg_position_target_local_ned.h"
#include "./mavlink_msg_set_position_target_global_int.h"
#include "./mavlink_msg_position_target_global_int.h"
#include "./mavlink_msg_local_position_ned_system_global_offset.h"
#include "./mavlink_msg_hil_state.h"
#include "./mavlink_msg_hil_controls.h"
#include "./mavlink_msg_hil_rc_inputs_raw.h"
#include "./mavlink_msg_hil_actuator_controls.h"
#include "./mavlink_msg_optical_flow.h"
#include "./mavlink_msg_global_vision_position_estimate.h"
#include "./mavlink_msg_vision_position_estimate.h"
#include "./mavlink_msg_vision_speed_estimate.h"
#include "./mavlink_msg_vicon_position_estimate.h"
#include "./mavlink_msg_highres_imu.h"
#include "./mavlink_msg_optical_flow_rad.h"
#include "./mavlink_msg_hil_sensor.h"
#include "./mavlink_msg_sim_state.h"
#include "./mavlink_msg_radio_status.h"
#include "./mavlink_msg_file_transfer_protocol.h"
#include "./mavlink_msg_timesync.h"
#include "./mavlink_msg_camera_trigger.h"
#include "./mavlink_msg_hil_gps.h"
#include "./mavlink_msg_hil_optical_flow.h"
#include "./mavlink_msg_hil_state_quaternion.h"
#include "./mavlink_msg_scaled_imu2.h"
#include "./mavlink_msg_log_request_list.h"
#include "./mavlink_msg_log_entry.h"
#include "./mavlink_msg_log_request_data.h"
#include "./mavlink_msg_log_data.h"
#include "./mavlink_msg_log_erase.h"
#include "./mavlink_msg_log_request_end.h"
#include "./mavlink_msg_gps_inject_data.h"
#include "./mavlink_msg_gps2_raw.h"
#include "./mavlink_msg_power_status.h"
#include "./mavlink_msg_serial_control.h"
#include "./mavlink_msg_gps_rtk.h"
#include "./mavlink_msg_gps2_rtk.h"
#include "./mavlink_msg_scaled_imu3.h"
#include "./mavlink_msg_data_transmission_handshake.h"
#include "./mavlink_msg_encapsulated_data.h"
#include "./mavlink_msg_distance_sensor.h"
#include "./mavlink_msg_terrain_request.h"
#include "./mavlink_msg_terrain_data.h"
#include "./mavlink_msg_terrain_check.h"
#include "./mavlink_msg_terrain_report.h"
#include "./mavlink_msg_scaled_pressure2.h"
#include "./mavlink_msg_att_pos_mocap.h"
#include "./mavlink_msg_set_actuator_control_target.h"
#include "./mavlink_msg_actuator_control_target.h"
#include "./mavlink_msg_altitude.h"
#include "./mavlink_msg_resource_request.h"
#include "./mavlink_msg_scaled_pressure3.h"
#include "./mavlink_msg_follow_target.h"
#include "./mavlink_msg_control_system_state.h"
#include "./mavlink_msg_battery_status.h"
#include "./mavlink_msg_autopilot_version.h"
#include "./mavlink_msg_landing_target.h"
#include "./mavlink_msg_fence_status.h"
#include "./mavlink_msg_mag_cal_report.h"
#include "./mavlink_msg_efi_status.h"
#include "./mavlink_msg_estimator_status.h"
#include "./mavlink_msg_wind_cov.h"
#include "./mavlink_msg_gps_input.h"
#include "./mavlink_msg_gps_rtcm_data.h"
#include "./mavlink_msg_high_latency.h"
#include "./mavlink_msg_high_latency2.h"
#include "./mavlink_msg_vibration.h"
#include "./mavlink_msg_home_position.h"
#include "./mavlink_msg_set_home_position.h"
#include "./mavlink_msg_message_interval.h"
#include "./mavlink_msg_extended_sys_state.h"
#include "./mavlink_msg_adsb_vehicle.h"
#include "./mavlink_msg_collision.h"
#include "./mavlink_msg_v2_extension.h"
#include "./mavlink_msg_memory_vect.h"
#include "./mavlink_msg_debug_vect.h"
#include "./mavlink_msg_named_value_float.h"
#include "./mavlink_msg_named_value_int.h"
#include "./mavlink_msg_statustext.h"
#include "./mavlink_msg_debug.h"
#include "./mavlink_msg_setup_signing.h"
#include "./mavlink_msg_button_change.h"
#include "./mavlink_msg_play_tune.h"
#include "./mavlink_msg_camera_information.h"
#include "./mavlink_msg_camera_settings.h"
#include "./mavlink_msg_storage_information.h"
#include "./mavlink_msg_camera_capture_status.h"
#include "./mavlink_msg_camera_image_captured.h"
#include "./mavlink_msg_flight_information.h"
#include "./mavlink_msg_mount_orientation.h"
#include "./mavlink_msg_logging_data.h"
#include "./mavlink_msg_logging_data_acked.h"
#include "./mavlink_msg_logging_ack.h"
#include "./mavlink_msg_video_stream_information.h"
#include "./mavlink_msg_video_stream_status.h"
#include "./mavlink_msg_camera_fov_status.h"
#include "./mavlink_msg_camera_tracking_image_status.h"
#include "./mavlink_msg_camera_tracking_geo_status.h"
#include "./mavlink_msg_gimbal_manager_information.h"
#include "./mavlink_msg_gimbal_manager_status.h"
#include "./mavlink_msg_gimbal_manager_set_attitude.h"
#include "./mavlink_msg_gimbal_device_information.h"
#include "./mavlink_msg_gimbal_device_set_attitude.h"
#include "./mavlink_msg_gimbal_device_attitude_status.h"
#include "./mavlink_msg_autopilot_state_for_gimbal_device.h"
#include "./mavlink_msg_gimbal_manager_set_pitchyaw.h"
#include "./mavlink_msg_gimbal_manager_set_manual_control.h"
#include "./mavlink_msg_esc_info.h"
#include "./mavlink_msg_esc_status.h"
#include "./mavlink_msg_wifi_config_ap.h"
#include "./mavlink_msg_ais_vessel.h"
#include "./mavlink_msg_uavcan_node_status.h"
#include "./mavlink_msg_uavcan_node_info.h"
#include "./mavlink_msg_param_ext_request_read.h"
#include "./mavlink_msg_param_ext_request_list.h"
#include "./mavlink_msg_param_ext_value.h"
#include "./mavlink_msg_param_ext_set.h"
#include "./mavlink_msg_param_ext_ack.h"
#include "./mavlink_msg_obstacle_distance.h"
#include "./mavlink_msg_odometry.h"
#include "./mavlink_msg_trajectory_representation_waypoints.h"
#include "./mavlink_msg_trajectory_representation_bezier.h"
#include "./mavlink_msg_cellular_status.h"
#include "./mavlink_msg_isbd_link_status.h"
#include "./mavlink_msg_cellular_config.h"
#include "./mavlink_msg_raw_rpm.h"
#include "./mavlink_msg_utm_global_position.h"
#include "./mavlink_msg_debug_float_array.h"
#include "./mavlink_msg_orbit_execution_status.h"
#include "./mavlink_msg_battery_info.h"
#include "./mavlink_msg_generator_status.h"
#include "./mavlink_msg_actuator_output_status.h"
#include "./mavlink_msg_time_estimate_to_target.h"
#include "./mavlink_msg_tunnel.h"
#include "./mavlink_msg_can_frame.h"
#include "./mavlink_msg_onboard_computer_status.h"
#include "./mavlink_msg_component_information.h"
#include "./mavlink_msg_component_information_basic.h"
#include "./mavlink_msg_component_metadata.h"
#include "./mavlink_msg_play_tune_v2.h"
#include "./mavlink_msg_supported_tunes.h"
#include "./mavlink_msg_event.h"
#include "./mavlink_msg_current_event_sequence.h"
#include "./mavlink_msg_request_event.h"
#include "./mavlink_msg_response_event_error.h"
#include "./mavlink_msg_illuminator_status.h"
#include "./mavlink_msg_canfd_frame.h"
#include "./mavlink_msg_can_filter_modify.h"
#include "./mavlink_msg_wheel_distance.h"
#include "./mavlink_msg_winch_status.h"
#include "./mavlink_msg_open_drone_id_basic_id.h"
#include "./mavlink_msg_open_drone_id_location.h"
#include "./mavlink_msg_open_drone_id_authentication.h"
#include "./mavlink_msg_open_drone_id_self_id.h"
#include "./mavlink_msg_open_drone_id_system.h"
#include "./mavlink_msg_open_drone_id_operator_id.h"
#include "./mavlink_msg_open_drone_id_message_pack.h"
#include "./mavlink_msg_open_drone_id_arm_status.h"
#include "./mavlink_msg_open_drone_id_system_update.h"
#include "./mavlink_msg_hygrometer_sensor.h"

#ifdef FASTMAVLINK_IGNORE_WADDRESSOFPACKEDMEMBER
  #if defined __GNUC__ && __GNUC__ >= 9
    #pragma GCC diagnostic pop
  #endif
#endif


//------------------------------
//-- Dialect includes
//------------------------------

#include "../standard/standard.h"


#ifdef __cplusplus
}
#endif

#endif // FASTMAVLINK_COMMON_H
